References
| * | 1 | Aad, G. et al. (ATLAS Collaboration), “Expected Performance of the ATLAS Experiment -
Detector, Trigger and Physics”, arXiv, e-print, (2009). [ ADS], [arXiv:0901.0512 [hep-ex]].
|
| * | 2 | Aad, G. et al. (ATLAS Collaboration), “Observation of a Centrality-Dependent Dijet
Asymmetry in Lead-Lead Collisions at  = 2.76 TeV with the ATLAS Detector at the
LHC”, Phys. Rev. Lett., 105, 252303 (2010). [DOI], [ADS], [arXiv:1011.6182 [hep-ex]].
|
| * | 3 | Aad, G. et al. (ATLAS Collaboration), “Search for TeV-scale gravity signatures in final states
with leptons and jets with the ATLAS detector at  = 7 TeV”, Phys. Lett. B, 716, 122–141
(2012). [DOI], [arXiv:1204.4646 [hep-ex]].
|
| * | 4 | Aad, G. et al. (ATLAS Collaboration), “Search for Quantum Black Hole Production in
High-Invariant-Mass Lepton+Jet Final States Using pp Collisions at  = 8 TeV and the
ATLAS Detector”, Phys. Rev. Lett., 112, 091804 (2014). [DOI], [ADS], [arXiv:1311.2006 [hep-ex]].
|
| * | 5 | Abadie, J. et al. (LIGO Scientific Collaboration, Virgo Collaboration), “Predictions for the
Rates of Compact Binary Coalescences Observable by Ground-based Gravitational-wave
Detectors”, Class. Quantum Grav., 27, 173001 (2010). [DOI], [arXiv:1003.2480 [astro-ph.HE]].
|
| * | 6 | Abbott, B. P. et al. (LIGO Scientific Collaboration), “LIGO: The Laser Interferometer
Gravitational-Wave Observatory”, Rep. Prog. Phys., 72, 076901 (2009). [DOI], [ADS],
[arXiv:0711.3041 [gr-qc]].
|
| * | 7 | Abbott, L. F. and Wise, M. B., “Constraints on Generalized Inflationary Cosmologies”, Nucl.
Phys. B, 244, 541–548 (1984). [DOI].
|
| * | 8 | Abdolrahimi, S., Cattoën, C., Page, D. N. and Yaghoobpour-Tari, S., “Spectral methods in
general relativity and large Randall-Sundrum II black holes”, J. Cosmol. Astropart. Phys.,
2013(06), 039 (2013). [DOI], [arXiv:1212.5623 [hep-th]].
|
| * | 9 | Abrahams, A. M. and Evans, C. R., “Critical behavior and scaling in vacuum axisymmetric
gravitational collapse”, Phys. Rev. Lett., 70, 2980–2983 (1993). [DOI].
|
| * | 10 | Accadia, T. et al. (Virgo Collaboration), “Status and perspectives of the Virgo gravitational
wave detector”, J. Phys.: Conf. Ser., 203, 012074 (2010). [DOI].
|
| * | 11 | Adam, A., Kitchen, S. and Wiseman, T., “A numerical approach to finding general stationary
vacuum black holes”, Class. Quantum Grav., 29, 165002 (2012). [DOI], [arXiv:1105.6347 [gr-qc]].
|
| * | 12 | Adams, A., Chesler, P. M. and Liu, H., “Holographic Vortex Liquids and Superfluid
Turbulence”, Science, 26, 368–372 (2013). [DOI], [arXiv:1212.0281 [hep-th]].
|
| * | 13 | Adams, A., Chesler, P. M. and Liu, H., “Holographic turbulence”, Phys. Rev. Lett., 112,
151602 (2014). [DOI], [arXiv:1307.7267 [hep-th]].
|
| * | 14 | Adler, R. J. and Zeks, B., “Gravitational Radiation from Supernova Explosions”, Phys. Rev.
D, 12, 3007 (1975). [DOI].
|
| * | 15 | Aharony, O., Gubser, S. S., Maldacena, J. M., Ooguri, H. and Oz, Y., “Large N field theories,
string theory and gravity”, Phys. Rep., 323, 183–386 (2000). [DOI], [arXiv:hep-th/9905111].
|
| * | 16 | Aichelburg, P. C. and Sexl, R. U., “On the Gravitational field of a massless particle”, Gen.
Relativ. Gravit., 2, 303–312 (1971). [DOI].
|
| * | 17 | Ajith, P. et al., “Phenomenological template family for black-hole coalescence waveforms”,
Class. Quantum Grav., 24, S689–S700 (2007). [DOI], [arXiv:0704.3764 [gr-qc]].
|
| * | 18 | Ajith, P. et al., “The NINJA-2 catalog of hybrid post-Newtonian/numerical-relativity
waveforms for non-precessing black-hole binaries”, Class. Quantum Grav., 29, 124001 (2012).
[DOI], [arXiv:1201.5319 [gr-qc]].
|
| * | 19 | Albacete, J. L., Kovchegov, Y. V. and Taliotis, A., “Asymmetric Collision of Two Shock Waves
in AdS(5)”, J. High Energy Phys., 2009(05), 060 (2009). [DOI], [arXiv:0902.3046 [hep-th]].
|
| * | 20 | Alcubierre, M., “Hyperbolic slicings of spacetime: singularity avoidance and gauge shocks”,
Class. Quantum Grav., 20, 607–624 (2003). [DOI], [gr-qc/0210050].
|
| * | 21 | Alcubierre, M., Introduction to 3+1 Numerical Relativity, International Series of Monographs
on Physics, 140, (Oxford University Press, Oxford, 2008). [ADS].
|
| * | 22 | Alcubierre, M., Brandt, S., Brügmann, B., Gundlach, C., Masso, J., Seidel, E. and Walker,
P., “Test beds and applications for apparent horizon finders in numerical relativity”, Class.
Quantum Grav., 17, 2159–2190 (2000). [DOI], [gr-qc/9809004].
|
| * | 23 | Alcubierre, M. and Brügmann, B., “Simple excision of a black hole in 3 + 1 numerical
relativity”, Phys. Rev. D, 63, 104006 (2001). [DOI], [gr-qc/0008067].
|
| * | 24 | Alcubierre, M., Brügmann, B., Diener, P., Koppitz, M., Pollney, D., Seidel, E. and Takahashi,
R., “Gauge conditions for long-term numerical black hole evolutions without excision”, Phys.
Rev. D, 67, 084023 (2003). [DOI], [gr-qc/0206072].
|
| * | 25 | Alcubierre, M., Brügmann, B., Holz, D. E., Takahashi, R., Brandt, S., Seidel, E. and
Thornburg, J., “Symmetry without symmetry: Numerical simulation of axisymmetric systems
using Cartesian grids”, Int. J. Mod. Phys. D, 10, 273–289 (2001). [DOI].
|
| * | 26 | Alcubierre, M. et al., “Toward standard testbeds for numerical relativity”, Class. Quantum
Grav., 21, 589–613 (2004). [DOI], [ADS], [arXiv:gr-qc/0305023].
|
| * | 27 | Alexander, S. and Yunes, N., “Chern-Simons Modified General Relativity”, Phys. Rep., 480,
1–55 (2009). [DOI], [arXiv:0907.2562 [hep-th]].
|
| * | 28 | Alic, D., Bona-Casas, C., Bona, C., Rezzolla, L. and Palenzuela, C., “Conformal and covariant
formulation of the Z4 system with constraint-violation damping”, Phys. Rev. D, 85, 064040
(2012). [DOI], [arXiv:1106.2254 [gr-qc]].
|
| * | 29 | Alic, D., Rezzolla, L., Hinder, I. and Mösta, P., “Dynamical damping terms for
symmetry-seeking shift conditions”, Class. Quantum Grav., 27, 245023 (2010). [DOI],
[arXiv:1008.2212 [gr-qc]].
|
| * | 30 | Alsing, J., Berti, E., Will, C. M. and Zaglauer, H., “Gravitational radiation from compact
binary systems in the massive Brans-Dicke theory of gravity”, Phys. Rev. D, 85, 064041 (2012).
[DOI], [arXiv:1112.4903 [gr-qc]].
|
| * | 31 | Alvarez-Gaumé, L., Gómez, C., Sabio Vera, A., Tavanfar, A. and Vázquez-Mozo, M. A.,
“Critical formation of trapped surfaces in the collision of gravitational shock waves”, J. High
Energy Phys., 2009(02), 009 (2009). [DOI], [arXiv:0811.3969 [hep-th]].
|
| * | 32 | Amaro-Seoane, P. et al., “Astrophysics, detection and science applications of intermediate-
and extreme mass-ratio inspirals”, Class. Quantum Grav., 24, R113–R169 (2007). [DOI],
[arXiv:astro-ph/0703495].
|
| * | 33 | Anchordoqui, L. and Goldberg, H., “Experimental signature for black hole production in
neutrino air showers”, Phys. Rev. D, 65, 047502 (2002). [DOI], [arXiv:hep-ph/0109242 [hep-ph]].
|
| * | 34 | Andersson, N., “Gravitational waves from instabilities in relativistic stars”, Class. Quantum
Grav., 20, R105 (2003). [DOI], [arXiv:astro-ph/0211057 [astro-ph]].
|
| * | 35 | Andrade, Z. and Price, R. H., “Headon collisions of unequal mass black holes: Close limit
predictions”, Phys. Rev. D, 56, 6336–6350 (1997). [DOI], [arXiv:gr-qc/9611022 [gr-qc]].
|
| * | 36 | Anninos, Peter, “Computational Cosmology: From the Early Universe to the Large Scale
Structure”, Living Rev. Relativity, 4, lrr-2001-2 (2001). [DOI], [ADS]. URL (accessed 2 April
2014): http://www.livingreviews.org/lrr-2001-2. |
| * | 37 | Anninos, P., Hobill, D., Seidel, E., Smarr, L. and Suen, W.-M., “Collision of two black holes”,
Phys. Rev. Lett., 71, 2851–2854 (1993). [DOI], [arXiv:gr-qc/9309016 [gr-qc]].
|
| * | 38 | Ansorg, M., “Multi-Domain Spectral Method for Initial Data of Arbitrary Binaries in General
Relativity”, Class. Quantum Grav., 24, S1–S14 (2007). [DOI], [gr-qc/0612081].
|
| * | 39 | Ansorg, M., Brügmann, B. and Tichy, W., “Single-domain spectral method for black hole
puncture data”, Phys. Rev. D, 70, 064011 (2004). [DOI], [gr-qc/0404056].
|
| * | 40 | Antoniadis, I., Arkani-Hamed, N., Dimopoulos, S. and Dvali, G. R., “New dimensions at a
millimeter to a Fermi and superstrings at a TeV”, Phys. Lett. B, 436, 257–263 (1998). [DOI],
[ADS], [arXiv:hep-ph/9804398].
|
| * | 41 | Aretakis, S., “Stability and Instability of Extreme Reissner–Nordström Black Hole Spacetimes
for Linear Scalar Perturbations II”, Ann. Henri Poincare, 12, 1491–1538 (2011). [DOI],
[arXiv:1110.2009 [gr-qc]].
|
| * | 42 | Aretakis, S., “Stability and Instability of Extreme Reissner-Nordström Black Hole Spacetimes
for Linear Scalar Perturbations I”, Commun. Math. Phys., 307, 17–63 (2011). [DOI],
[arXiv:1110.2007 [gr-qc]].
|
| * | 43 | Aretakis, S., “Horizon Instability of Extremal Black Holes”, arXiv, e-print, (2012). [ADS],
[arXiv:1206.6598 [gr-qc]].
|
| * | 44 | Aretakis, S., “Nonlinear instability of scalar fields on extremal black holes”, Phys. Rev. D, 87,
084052 (2013). [DOI], [arXiv:1304.4616 [gr-qc]].
|
| * | 45 | Argyres, P. C., Dimopoulos, S. and March-Russell, J., “Black holes and sub-millimeter
dimensions”, Phys. Lett. B, 441, 96–104 (1998). [DOI], [arXiv:hep-th/9808138].
|
| * | 46 | Arkani-Hamed, N., Dimopoulos, S. and Dvali, G. R., “The hierarchy problem and new
dimensions at a millimeter”, Phys. Lett. B, 429, 263–272 (1998). [DOI], [arXiv:hep-ph/9803315
[hep-ph]].
|
| * | 47 | Arnowitt, R., Deser, S. and Misner, C. W., “The dynamics of general relativity”, in Witten,
L., ed., Gravitation: An Introduction to Current Research, pp. 227–265, (Wiley, New York;
London, 1962). [DOI], [ADS], [arXiv:gr-qc/0405109 [gr-qc]].
|
| * | 48 | Arun, K. G., Blanchet, L., Iyer, B. R. and Sinha, S., “Third post-Newtonian angular
momentum flux and the secular evolution of orbital elements for inspiralling compact binaries
in quasi-elliptical orbits”, Phys. Rev. D, 80, 124018 (2009). [DOI], [arXiv:0908.3854 [gr-qc]].
|
| * | 49 | Arvanitaki, A., Dimopoulos, S., Dubovsky, S., Kaloper, N. and March-Russell, J., “String
Axiverse”, Phys. Rev. D, 81, 123530 (2010). [DOI], [arXiv:0905.4720 [hep-th]].
|
| * | 50 | Arvanitaki, A. and Dubovsky, S., “Exploring the String Axiverse with Precision Black Hole
Physics”, Phys. Rev. D, 83, 044026 (2011). [DOI], [arXiv:1004.3558 [hep-th]].
|
| * | 51 | Ashtekar, A., Corichi, A. and Sudarsky, D., “Hairy black holes, horizon mass and solitons”,
Class. Quantum Grav., 18, 919–940 (2001). [DOI], [arXiv:gr-qc/0011081 [gr-qc]].
|
| * | 52 | Ashtekar, A. and Krishnan, B., “Dynamical horizons and their properties”, Phys. Rev. D, 68,
104030 (2003). [DOI], [arXiv:gr-qc/0308033].
|
| * | 53 | Ashtekar, A. and Krishnan, B., “Isolated and Dynamical Horizons and Their Applications”,
Living Rev. Relativity, 7, lrr-2004-10 (2004). [DOI], [ADS], [arXiv:gr-qc/0407042]. URL (accessed
2 April 2014): http://www.livingreviews.org/lrr-2004-10. |
| * | 54 | Ashtekar, A., Pretorius, F. and Ramazanoglu, F. M., “Evaporation of 2-Dimensional Black
Holes”, Phys. Rev. D, 83, 044040 (2011). [DOI], [arXiv:1012.0077 [gr-qc]].
|
| * | 55 | Ashtekar, A., Pretorius, F. and Ramazanoglu, F. M., “Surprises in the Evaporation of
2-Dimensional Black Holes”, Phys. Rev. Lett., 106, 161303 (2011). [DOI], [arXiv:1011.6442
[gr-qc]].
|
| * | 56 | Avelino, P. P., Hamilton, A. J. S. and Herdeiro, C. A. R., “Mass Inflation in Brans-Dicke
gravity”, Phys. Rev. D, 79, 124045 (2009). [DOI], [arXiv:0904.2669 [gr-qc]].
|
| * | 57 | Avelino, P. P., Hamilton, A. J. S., Herdeiro, C. A. R. and Zilhão, M., “Mass inflation in a
D-dimensional Reissner-Nordström black hole: A hierarchy of particle accelerators?”, Phys.
Rev. D, 84, 024019 (2011). [DOI], [arXiv:1105.4434 [gr-qc]].
|
| * | 58 | Babiuc, M. C., Kreiss, H.-O. and Winicour, J., “Constraint-preserving Sommerfeld conditions
for the harmonic Einstein equations”, Phys. Rev. D, 75, 044002 (2007). [DOI], [gr-qc/0612051].
|
| * | 59 | Babiuc, M. C., Kreiss, H-O. and Winicour, J., “Testing the well-posedness of characteristic
evolution of scalar waves”, Class. Quantum Grav., 31, 025022 (2014). [DOI], [arXiv:1305.7179
[gr-qc]].
|
| * | 60 | Babiuc, M. C., Szilagyi, B., Winicour, J. and Zlochower, Y., “A Characteristic Extraction Tool
for Gravitational Waveforms”, Phys. Rev. D, 84, 044057 (2011). [DOI], [arXiv:1011.4223 [gr-qc]].
|
| * | 61 | Baiotti, L., Damour, T., Giacomazzo, B., Nagar, A. and Rezzolla, L., “Accurate numerical
simulations of inspiralling binary neutron stars and their comparison with effective-one-body
analytical models”, Phys. Rev. D, 84, 024017 (2011). [DOI], [arXiv:1103.3874 [gr-qc]].
|
| * | 62 | Baiotti, L., Giacomazzo, B. and Rezzolla, L., “Accurate evolutions of inspiralling neutron-star
binaries: prompt and delayed collapse to black hole”, Phys. Rev. D, 78, 084033 (2008). [DOI],
[arXiv:0804.0594 [gr-qc]].
|
| * | 63 | Baiotti, L., Hawke, I., Montero, P. J., Löffler, F., Rezzolla, L., Stergioulas, N., Font, J. A.
and Seidel, E., “Three-dimensional relativistic simulations of rotating neutron star collapse to
a Kerr black hole”, Phys. Rev. D, 71, 024035 (2005). [DOI], [arXiv:gr-qc/0403029].
|
| * | 64 | Baiotti, L. and Rezzolla, L., “Challenging the Paradigm of Singularity Excision in Gravitational
Collapse”, Phys. Rev. Lett., 97, 141101 (2006). [DOI], [arXiv:gr-qc/0608113 [gr-qc]].
|
| * | 65 | Baker, J. G., Centrella, J., Choi, D.-I., Koppitz, M. and van Meter, J., “Gravitational wave
extraction from an inspiraling configuration of merging black holes”, Phys. Rev. Lett., 96,
111102 (2006). [DOI], [arXiv:gr-qc/0511103].
|
| * | 66 | Balasubramanian, V., Buchel, A., Green, S. R., Lehner, L. and Liebling, S. L., “Holographic
Thermalization, stability of AdS, and the Fermi-Pasta-Ulam-Tsingou paradox”, Phys. Rev.
Lett., 113, 071601 (2014). [DOI], [ADS], [arXiv:1403.6471 [hep-th]].
|
| * | 67 | Balasubramanian, V. and Kraus, P., “A Stress tensor for Anti-de Sitter gravity”, Commun.
Math. Phys., 208, 413–428 (1999). [DOI], [arXiv:hep-th/9902121].
|
| * | 68 | Banados, M., Teitelboim, C. and Zanelli, J., “The Black hole in three-dimensional space-time”,
Phys. Rev. Lett., 69, 1849–1851 (1992). [DOI], [arXiv:hep-th/9204099].
|
| * | 69 | Banks, T. and Fischler, W., “A Model for High Energy Scattering in Quantum Gravity”, arXiv,
e-print, (1999). [ADS], [arXiv:hep-th/9906038 [hep-th]].
|
| * | 70 | Bantilan, H., Pretorius, F. and Gubser, S. S., “Simulation of asymptotically AdS5 spacetimes
with a generalized harmonic evolution scheme”, Phys. Rev. D, 85, 084038 (2012). [DOI],
[arXiv:1201.2132 [hep-th]].
|
| * | 71 | Barausse, E., Cardoso, V. and Khanna, G., “Test bodies and naked singularities: Is the self-force
the cosmic censor?”, Phys. Rev. Lett., 105, 261102 (2010). [DOI], [arXiv:1008.5159 [gr-qc]].
|
| * | 72 | Barausse, E., Cardoso, V. and Khanna, G., “Testing the Cosmic Censorship Conjecture with
point particles: the effect of radiation reaction and the self-force”, Phys. Rev. D, 84, 104006
(2011). [DOI], [arXiv:1106.1692 [gr-qc]].
|
| * | 73 | Barausse, E., Palenzuela, C., Ponce, M. and Lehner, L., “Neutron-star mergers in scalar-tensor
theories of gravity”, Phys. Rev. D, 87, 081506 (2013). [DOI], [arXiv:1212.5053 [gr-qc]].
|
| * | 74 | Bardeen, J. M., Carter, B. and Hawking, S. W., “The Four laws of black hole mechanics”,
Commun. Math. Phys., 31, 161–170 (1973). [DOI].
|
| * | 75 | Bardeen, J. M. and Press, W. H., “Radiation fields in the schwarzschild background”, J. Math.
Phys., 14, 7–19 (1973). [DOI].
|
| * | 76 | Barranco, J., Bernal, A., Degollado, J. C., Diez-Tejedor, A., Megevand, M., Alcubierre, M.,
Núñez, D. and Sarbach, O., “Schwarzschild black holes can wear scalar wigs”, Phys. Rev.
Lett., 109, 081102 (2012). [DOI], [arXiv:1207.2153 [gr-qc]].
|
| * | 77 | Bartnik, R. and McKinnon, J., “Particle-Like Solutions of the Einstein Yang-Mills Equations”,
Phys. Rev. Lett., 61, 141–144 (1988). [DOI].
|
| * | 78 | Baumgarte, T. W. and Shapiro, S. L., “On the Numerical integration of Einstein’s field
equations”, Phys. Rev. D, 59, 024007 (1998). [DOI], [gr-qc/9810065].
|
| * | 79 | Baumgarte, T. W. and Shapiro, S. L., Numerical Relativity: Solving Einstein’s Equations on
the Computer, (Cambridge University Press, Cambridge; New York, 2010). [ADS], [Google
Books].
|
| * | 80 | Bauswein, A. and Janka, H.-T., “Measuring neutron-star properties via gravitational waves
from binary mergers”, Phys. Rev. Lett., 108, 011101 (2012). [DOI], [arXiv:1106.1616 [astro-ph]].
|
| * | 81 | Bayona, C. A. and Braga, N. R. F., “Anti-de Sitter boundary in Poincaré coordinates”, Gen.
Relativ. Gravit., 39, 1367–1379 (2007). [DOI], [hep-th/0512182].
|
| * | 82 | Beetle, C., Bruni, M., Burko, L. M. and Nerozzi, A., “Towards a novel wave-extraction method
for numerical relativity. I. Foundations and initial-value formulation”, Phys. Rev. D, 72, 024013
(2005). [DOI], [gr-qc/0407012].
|
| * | 83 | Bekenstein, J. D., “Extraction of energy and charge from a black hole”, Phys. Rev. D, 7,
949–953 (1973). [DOI].
|
| * | 84 | Bekenstein, J. D., “Gravitational-Radiation Recoil and Runaway Black Holes”, Astrophys. J.,
183, 657–664 (1973). [DOI].
|
| * | 85 | Bekenstein, J. D., “Novel ‘no scalar hair’ theorem for black holes”, Phys. Rev. D, 51, 6608–6611
(1995). [DOI].
|
| * | 86 | Bentivegna, E. and Korzynski, M., “Evolution of a periodic eight-black-hole lattice in numerical
relativity”, Class. Quantum Grav., 29, 165007 (2012). [DOI], [arXiv:1204.3568 [gr-qc]].
|
| * | 87 | Berger, B. K., “How to determine approximate mixmaster parameters from numerical
evolution of Einstein’s equations”, Phys. Rev. D, 49, 1120–1123 (1994). [DOI],
[arXiv:gr-qc/9308016 [gr-qc]].
|
| * | 88 | Berger, B. K., “Numerical Approaches to Spacetime Singularities”, Living Rev. Relativity, 5,
lrr-2002-1 (2002). [DOI], [ADS], [arXiv:gr-qc/0201056 [gr-qc]]. URL (accessed 2 April 2014): http://www.livingreviews.org/lrr-2002-1. |
| * | 89 | Berger, B. K., Garfinkle, D. and Strasser, E., “New algorithm for mixmaster dynamics”, Class.
Quantum Grav., 14, L29–L36 (1997). [DOI], [arXiv:gr-qc/9609072 [gr-qc]].
|
| * | 90 | Berger, M. J. and Oliger, J., “Adaptive Mesh Refinement for Hyperbolic Partial Differential
Equations”, J. Comput. Phys., 53, 484–512 (1984). [DOI].
|
| * | 91 | Berti, E., Buonanno, A. and Will, C. M., “Estimating spinning binary parameters and
testing alternative theories of gravity with LISA”, Phys. Rev. D, 71, 084025 (2005). [DOI],
[arXiv:gr-qc/0411129].
|
| * | 92 | Berti, E., Cardoso, V., Gualtieri, L., Horbatsch, M. and Sperhake, U., “Numerical simulations
of single and binary black holes in scalar-tensor theories: circumventing the no-hair theorem”,
Phys. Rev. D, 87, 124020 (2013). [DOI], [arXiv:1304.2836 [gr-qc]].
|
| * | 93 | Berti, E., Cardoso, V., Hinderer, T., Lemos, M., Pretorius, F. et al., “Semianalytical estimates
of scattering thresholds and gravitational radiation in ultrarelativistic black hole encounters”,
Phys. Rev. D, 81, 104048 (2010). [DOI], [arXiv:1003.0812 [gr-qc]].
|
| * | 94 | Berti, E., Cardoso, V. and Kipapa, B., “Up to eleven: radiation from particles with arbitrary
energy falling into higher-dimensional black holes”, Phys. Rev. D, 83, 084018 (2011). [DOI],
[arXiv:1010.3874 [gr-qc]].
|
| * | 95 | Berti, E., Cardoso, V. and Starinets, A. O., “Quasinormal modes of black holes and black
branes”, Class. Quantum Grav., 26, 163001 (2009). [DOI], [arXiv:0905.2975 [gr-qc]].
|
| * | 96 | Berti, E., Cardoso, V. and Will, C. M., “Considerations on the excitation of black hole
quasinormal modes”, in Solomos, N. H., ed., Recent Advances in Astronomy and Astrophysics,
7th International Conference of the Hellenic Astronomical Society, Lixourion, Kefallinia Island
(Greece), 8 - 11 September 2005, AIP Conf. Proc., 848, pp. 687–697, (American Institute of
Physics, Melville, NY, 2006). [DOI], [arXiv:gr-qc/0601077 [gr-qc]].
|
| * | 97 | Berti, E., Cardoso, V. and Will, C. M., “On gravitational-wave spectroscopy of massive
black holes with the space interferometer LISA”, Phys. Rev. D, 73, 064030 (2006). [DOI],
[arXiv:gr-qc/0512160].
|
| * | 98 | Berti, E., Cavaglia, M. and Gualtieri, L., “Gravitational energy loss in high energy particle
collisions: Ultrarelativistic plunge into a multidimensional black hole”, Phys. Rev. D, 69, 124011
(2004). [DOI], [arXiv:hep-th/0309203].
|
| * | 99 | Bertotti, B., Iess, L. and Tortora, P., “A test of general relativity using radio links with the
Cassini spacecraft”, Nature, 425, 374 (2003). [DOI].
|
| * | 100 | Beyer, H. R. and Sarbach, O., “On the well posedness
of the Baumgarte-Shapiro-Shibata-Nakamura formulation of Einstein’s field equations”, Phys.
Rev. D, 70, 104004 (2004). [DOI], [gr-qc/0406003].
|
| * | 101 | Bildsten, L., “Gravitational radiation and rotation of accreting neutron stars”, Astrophys. J.,
501, L89 (1998). [DOI], [arXiv:astro-ph/9804325 [astro-ph]].
|
| * | 102 | Bini, D., Damour, T. and Faye, G., “Effective action approach to higher-order relativistic tidal
interactions in binary systems and their effective one body description”, Phys. Rev. D, 85,
124034 (2012). [DOI], [arXiv:1202.3565 [gr-qc]].
|
| * | 103 | Birkhoff, G. D. and Langer, R. E., Relativity and Modern Physics, (Harvard University Press,
Cambridge, 1923). [ADS].
|
| * | 104 | Birmingham, D., Sachs, I. and Solodukhin, S. N., “Conformal field theory interpretation
of black hole quasi-normal modes”, Phys. Rev. Lett., 88, 151301 (2002). [DOI],
[arXiv:hep-th/0112055].
|
| * | 105 | Bizoń, P., “Colored black holes”, Phys. Rev. Lett., 64, 2844–2847 (1990). [DOI].
|
| * | 106 | Bizoń, P., “Gravitating solitons and hairy black holes”, Acta Phys. Pol. B, 25, 877–898 (1994).
[arXiv:gr-qc/9402016 [gr-qc]].
|
| * | 107 | Bizoń, P. and Chmaj, T., “Gravitating skyrmions”, Phys. Lett. B, 297, 55–62 (1992). [DOI].
|
| * | 108 | Bizoń, P. and Rostworowski, A., “On weakly turbulent instability of anti-de Sitter space”,
Phys. Rev. Lett., 107, 031102 (2011). [DOI], [arXiv:1104.3702 [gr-qc]].
|
| * | 109 | Blanchet, L., “Gravitational Radiation from Post-Newtonian Sources and Inspiralling Compact
Binaries”, Living Rev. Relativity, 17, lrr-2014-2 (2014). [DOI], [ADS], [arXiv:1310.1528 [gr-qc]].
URL (accessed 5 August 2014): http://www.livingreviews.org/lrr-2014-2. |
| * | 110 | Bolton, C. T., “Cygnus X-1-Dimensions of the system”, Nature, 240, 124 (1972). |
| * | 111 | Bona, C., , Palenzuela, C. and Bona-Casas, C., Elements of Numerical Relativity and
Relativistic Hydrodynamics: From Einstein’s Equations to Astrophysical Simulations, Lecture
Notes in Physics, 783, (Springer, Berlin; New York, 2009), 2nd edition. [DOI], [ADS].
|
| * | 112 | Bona, C., Ledvinka, T., Palenzuela, C. and Žáček, M., “A Symmetry breaking mechanism
for the Z4 general covariant evolution system”, Phys. Rev. D, 69, 064036 (2004). [DOI],
[gr-qc/0307067].
|
| * | 113 | Bona, C., Ledvinka, T., Palenzuela, C. and Žáček, M., “General-covariant evolution
formalism for numerical relativity”, Phys. Rev. D, 67, 104005 (2003). [DOI], [gr-qc/0302083].
|
| * | 114 | Bona, C., Ledvinka, T., Palenzuela-Luque, C. and Žáček, M., “Constraint-preserving
boundary conditions in the Z4 numerical relativity formalism”, Class. Quantum Grav., 22,
2615–2634 (2005). [DOI], [gr-qc/0411110].
|
| * | 115 | Bona, C. and Masso, J., “Hyperbolic evolution system for numerical relativity”, Phys. Rev.
Lett., 68, 1097–1099 (1992). [DOI].
|
| * | 116 | Bona, C., Massó, J., Seidel, E. and Stela, J., “A New Formalism for Numerical Relativity”,
Phys. Rev. Lett., 75, 600–603 (1995). [DOI], [gr-qc/9412071].
|
| * | 117 | Bonazzola, S., Gourgoulhon, E. and Marck, J.-A., “Numerical approach for high precision
3-D relativistic star models”, Phys. Rev. D, 58, 104020 (1998). [DOI], [arXiv:astro-ph/9803086
[astro-ph]].
|
| * | 118 | Bondi, H., van der Burg, M. G. J. and Metzner, A. W. K., “Gravitational Waves in General
Relativity. VII. Waves from Axi-Symmetric Isolated Systems”, Proc. R. Soc. London, Ser. A,
269, 21–52 (1962). [DOI], [ADS].
|
| * | 119 | Bonnor, W. B. and Rotenberg, M. A., “Transport of momentum by gravitational waves: the
linear approximation”, Proc. R. Soc. London, Ser. A, 265, 109–116 (1961). [DOI].
|
| * | 120 | Boulware, D. G. and Deser, S., “String Generated Gravity Models”, Phys. Rev. Lett., 55, 2656
(1985). [DOI].
|
| * | 121 | Bowen, J. M. and York Jr, J. W., “Time-asymmetric initial data for black holes and black-hole
collisions”, Phys. Rev. D, 21, 2047–2056 (1980). [DOI].
|
| * | 122 | Boyle, M., Brown, D. A., Kidder, L. E., Mroué, A. H., Pfeiffer, H. P., Scheel, M. A.,
Cook, G. B. and Teukolsky, S. A., “High-accuracy comparison of numerical relativity
simulations with post-Newtonian expansions”, Phys. Rev. D, 76, 124038 (2007). [DOI], [ADS],
[arXiv:0710.0158 [gr-qc]].
|
| * | 123 | Boyle, M., Brown, D. A. and Pekowsky, L., “Comparison of high-accuracy numerical
simulations of black-hole binaries with stationary-phase post-Newtonian template waveforms
for initial and advanced LIGO”, Class. Quantum Grav., 26, 114006 (2009). [DOI], [ADS],
[arXiv:0901.1628 [gr-qc]].
|
| * | 124 | Boyle, M. and Mroué, A. H., “Extrapolating gravitational-wave data from numerical
simulations”, Phys. Rev. D, 80, 124045 (2009). [DOI], [arXiv:0905.3177 [gr-qc]].
|
| * | 125 | Brady, P. R., Chambers, C. M. and Goncalves, S. M. C. V., “Phases of massive scalar field
collapse”, Phys. Rev. D, 56, 6057–6061 (1997). [DOI], [arXiv:gr-qc/9709014 [gr-qc]].
|
| * | 126 | Brandt, S. and Brügmann, B., “A Simple construction of initial data for multiple black holes”,
Phys. Rev. Lett., 78, 3606–3609 (1997). [DOI], [gr-qc/9703066].
|
| * | 127 | Brandt, S. et al., “Grazing Collisions of Black Holes via the Excision of Singularities”, Phys.
Rev. Lett., 85, 5496–5499 (2000). [DOI], [gr-qc/0009047].
|
| * | 128 | Brans, C. and Dicke, R. H., “Mach’s principle and a relativistic theory of gravitation”, Phys.
Rev., 124, 925–935 (1961). [DOI].
|
| * | 129 | Breuer, R. A., Ruffini, R., Tiomno, J. and Vishveshwara, C. V., “Vector and Tensor Radiation
from Schwarzschild Relativistic Circular Geodesics”, Phys. Rev. D, 7, 1002–1007 (1973). [DOI],
[ADS].
|
| * | 130 | Breuer, R. A. and Vishveshwara, C. V., “Polarization of Synchrotron Radiation from
Relativistic Schwarzschild Circular Geodesics”, Phys. Rev. D, 7, 1008–1017 (1973). [DOI],
[ADS].
|
| * | 131 | Brihaye, Y., Kleihaus, B., Kunz, J. and Radu, E., “Rotating black holes with equal-magnitude
angular momenta in d=5 Einstein-Gauss-Bonnet theory”, J. High Energy Phys., 2010(11), 098
(2010). [DOI], [arXiv:1010.0860 [hep-th]].
|
| * | 132 | Brihaye, Y. and Radu, E., “Black hole solutions in d = 5 Chern-Simons gravity”, J. High
Energy Phys., 2013(11), 049 (2013). [DOI], [arXiv:1305.3531 [gr-qc]].
|
| * | 133 | Brill, D. R. and Lindquist, R. W., “Interaction Energy in Geometrostatics”, Phys. Rev., 131,
471–476 (1963). [DOI].
|
| * | 134 | Brito, R., “Dynamics around black holes: Radiation Emission and Tidal Effects”, arXiv, e-print,
(2012). [ADS], [arXiv:1211.1679 [gr-qc]].
|
| * | 135 | Brito, R., Cardoso, V. and Pani, P., “Massive spin-2 fields on black hole spacetimes: Instability
of the Schwarzschild and Kerr solutions and bounds on the graviton mass”, Phys. Rev. D, 88,
023514 (2013). [DOI], [arXiv:1304.6725 [gr-qc]].
|
| * | 136 | Brown, J. D., “BSSN in spherical symmetry”, Class. Quantum Grav., 25, 205004 (2008). [DOI],
[arXiv:0705.3845 [gr-qc]].
|
| * | 137 | Brown, J. D., “Puncture Evolution of Schwarzschild Black Holes”, Phys. Rev. D, 77, 044018
(2008). [DOI], [arXiv:0705.1359 [gr-qc]].
|
| * | 138 | Brown, J. D., “Probing the puncture for black hole simulations”, Phys. Rev. D, 80, 084042
(2009). [DOI], [arXiv:0908.3814 [gr-qc]].
|
| * | 139 | Brown, J. D. and York Jr, J. W., “Quasilocal energy and conserved charges derived from the
gravitational action”, Phys. Rev. D, 47, 1407–1419 (1993). [DOI], [arXiv:gr-qc/9209012].
|
| * | 140 | Brügmann, B., “Adaptive mesh and geodesically sliced Schwarzschild spacetime in 3+1
dimensions”, Phys. Rev. D, 54, 7361–7372 (1996). [DOI], [gr-qc/9608050].
|
| * | 141 | Bruhat, Y., “The Cauchy problem”, in Witten, L., ed., Gravitation: An Introduction to Current Research, pp. 130–168, (Wiley, New York; London, 1962). |
| * | 142 | Buchel, A., Lehner, L. and Liebling, S. L., “Scalar Collapse in AdS”, Phys. Rev. D, 86, 123011
(2012). [DOI], [arXiv:1210.0890 [gr-qc]].
|
| * | 143 | Buchel, A., Lehner, L. and Myers, R. C., “Thermal quenches in N=2* plasmas”, J. High Energy
Phys., 2012(08), 049 (2012). [DOI], [arXiv:1206.6785 [hep-th]].
|
| * | 144 | Buchel, A., Lehner, L., Myers, R. C. and van Niekerk, A., “Quantum quenches of holographic
plasmas”, J. High Energy Phys., 2013(05), 067 (2013). [DOI], [arXiv:1302.2924 [hep-th]].
|
| * | 145 | Buchel, A., Liebling, S. L. and Lehner, L., “Boson stars in AdS spacetime”, Phys. Rev. D, 87,
123006 (2013). [DOI], [arXiv:1304.4166 [gr-qc]].
|
| * | 146 | Buchman, L. T., Pfeiffer, H. P., Scheel, M. A. and Szilagyi, B., “Simulations of non-equal
mass black hole binaries with spectral methods”, Phys. Rev. D, 86, 084033 (2012). [DOI],
[arXiv:1206.3015 [gr-qc]].
|
| * | 147 | Buonanno, A. and Damour, T., “Effective one-body approach to general relativistic two-body
dynamics”, Phys. Rev. D, 59, 084006 (1999). [DOI], [arXiv:gr-qc/9811091 [gr-qc]].
|
| * | 148 | Buonanno, A., Faye, G. and Hinderer, T., “Spin effects on gravitational waves from inspiraling
compact binaries at second post-Newtonian order”, Phys. Rev. D, 87, 044009 (2013). [DOI],
[arXiv:1209.6349 [gr-qc]].
|
| * | 149 | Burgess, C. P., “Introduction to Effective Field Theory”, Annu. Rev. Nucl. Part. Sci., 57,
329–362 (2007). [DOI], [arXiv:hep-th/0701053 [hep-th]].
|
| * | 150 | Burgess, C. P. and Lutken, C. A., “Propagators and effective potentials in anti-de Sitter
space”, Phys. Lett. B, 153, 137 (1985). [DOI].
|
| * | 151 | Burko, L. M., “Structure of the black hole’s Cauchy horizon singularity”, Phys. Rev. Lett., 79,
4958–4961 (1997). [DOI], [arXiv:gr-qc/9710112 [gr-qc]].
|
| * | 152 | Burko, L. M., “Singularity deep inside the spherical charged black hole core”, Phys. Rev. D,
59, 024011 (1998). [DOI], [arXiv:gr-qc/9809073 [gr-qc]].
|
| * | 153 | Burko, L. M., “Black hole singularities: A New critical phenomenon”, Phys. Rev. Lett., 90,
121101 (2003). [DOI], [arXiv:gr-qc/0209084 [gr-qc]].
|
| * | 154 | “Cactus Code”, project homepage, Max Planck Institute for Gravitational Physics. URL
(accessed 2 April 2014): http://www.cactuscode.org/.
|
| * | 155 | “Cactus Computational Toolkit homepage”, project homepage, Max Planck Institute for
Gravitational Physics. URL (accessed 2 April 2014): http://www.cactuscode.org/. is same as ref ’cactus’ above, keep cactus, throw out this one
because of title.
|
| * | 156 | Callan Jr, C. G., Giddings, S. B., Harvey, J. A. and Strominger, A., “Evanescent black holes”,
Phys. Rev. D, 45, 1005–1009 (1992). [DOI], [arXiv:hep-th/9111056 [hep-th]].
|
| * | 157 | Cameron, A. G. W., ed., Interstellar Communication: A Collection of Reprints and Original
Contributions, Physical investigations of the universe, (W. A. Benjamin, New York, 1963).
[Google Books].
|
| * | 158 | Campanelli, M., Kelly, B. J. and Lousto, C. O., “The Lazarus project. II. Space-like extraction
with the quasi-Kinnersley tetrad”, Phys. Rev. D, 73, 064005 (2006). [DOI], [gr-qc/0510122].
|
| * | 159 | Campanelli, M., Lousto, C. O., Marronetti, P. and Zlochower, Y., “Accurate Evolutions of
Orbiting Black-Hole Binaries Without Excision”, Phys. Rev. Lett., 96, 111101 (2006). [DOI],
[arXiv:gr-qc/0511048].
|
| * | 160 | Campanelli, M., Lousto, C. O. and Zlochower, Y., “Spinning-black-hole binaries: The orbital
hang up”, Phys. Rev. D, 74, 041501 (2006). [DOI], [gr-qc/0604012].
|
| * | 161 | Campanelli, M., Lousto, C. O., Zlochower, Y. and Merritt, D., “Maximum gravitational recoil”,
Phys. Rev. Lett., 98, 231102 (2007). [DOI], [arXiv:gr-qc/0702133 [GR-QC]].
|
| * | 162 | Camps, J., Emparan, R. and Haddad, N., “Black Brane Viscosity and the Gregory-Laflamme
Instability”, J. High Energy Phys., 2010(05), 042 (2010). [DOI], [arXiv:1003.3636 [hep-th]].
|
| * | 163 | Cao, Z. and Hilditch, D., “Numerical stability of the Z4c formulation of general relativity”,
Phys. Rev. D, 85, 124032 (2012). [DOI], [arXiv:1111.2177 [gr-qc]].
|
| * | 164 | Cardoso, V., “Black hole bombs and explosions: from astrophysics to particle physics”, Gen.
Relativ. Gravit., 45, 2079–2097 (2013). [DOI], [arXiv:1307.0038 [gr-qc]].
|
| * | 165 | Cardoso, V., Chakrabarti, S., Pani, P., Berti, E. and Gualtieri, L., “Floating and sinking: The
Imprint of massive scalars around rotating black holes”, Phys. Rev. Lett., 107, 241101 (2011).
[DOI], [arXiv:1109.6021 [gr-qc]].
|
| * | 166 | Cardoso, V. and Dias, Ó. J. C., “Small Kerr-anti-de Sitter black holes are unstable”, Phys.
Rev. D, 70, 084011 (2004). [DOI], [arXiv:hep-th/0405006].
|
| * | 167 | Cardoso, V. and Dias, Ó. J. C., “Rayleigh-Plateau and Gregory-Laflamme instabilities of black
strings”, Phys. Rev. Lett., 96, 181601 (2006). [DOI], [arXiv:hep-th/0602017 [hep-th]].
|
| * | 168 | Cardoso, V. and Dias, Ó. J. C., “Bifurcation of Plasma Balls and Black Holes to Lobed
Configurations”, J. High Energy Phys., 2009(04), 125 (2009). [DOI], [arXiv:0902.3560 [hep-th]].
|
| * | 169 | Cardoso, V., Dias, Ó. J. C., Hartnett, G. S., Lehner, L. and Santos, J. E., “Holographic
thermalization, quasinormal modes and superradiance in Kerr-AdS”, J. High Energy Phys.,
2014(04), 183 (2014). [DOI], [arXiv:1312.5323 [hep-th]].
|
| * | 170 | Cardoso, V., Dias, Ó. J. C. and Lemos, J. P. S., “Gravitational radiation in D-dimensional
spacetimes”, Phys. Rev. D, 67, 064026 (2003). [DOI], [arXiv:hep-th/0212168].
|
| * | 171 | Cardoso, V., Dias, Ó. J. C., Lemos, J. P. S. and Yoshida, S., “The black hole bomb and
superradiant instabilities”, Phys. Rev. D, 70, 044039 (2004). [DOI], [arXiv:hep-th/0404096].
|
| * | 172 | Cardoso, V., Dias, Ó. J. C. and Yoshida, S., “Classical instability of Kerr-AdS black holes
and the issue of final state”, Phys. Rev. D, 74, 044008 (2006). [DOI], [arXiv:hep-th/0607162].
|
| * | 173 | Cardoso, V., Emparan, R., Mateos, D., Pani, P. and Rocha, J. V., “Holographic collisions
in confining theories”, J. High Energy Phys., 2014(01), 138 (2014). [DOI], [arXiv:1310.7590
[hep-th]].
|
| * | 174 | Cardoso, V. and Gualtieri, L., “Equilibrium configurations of fluids and their stability in
higher dimensions”, Class. Quantum Grav., 23, 7151–7198 (2006). [DOI], [arXiv:hep-th/0610004
[hep-th]].
|
| * | 175 | Cardoso, V. and Gualtieri, L., “Perturbations of Schwarzschild black holes in dynamical
Chern–Simons modified gravity”, Phys. Rev. D, 80, 064008 (2009). [DOI], [arXiv:0907.5008
[gr-qc]].
|
| * | 176 | Cardoso, V. and Lemos, J. P. S., “Quasinormal modes of Schwarzschild anti-de Sitter black
holes: Electromagnetic and gravitational perturbations”, Phys. Rev. D, 64, 084017 (2001).
[DOI], [arXiv:gr-qc/0105103 [gr-qc]].
|
| * | 177 | Cardoso, V. and Lemos, J. P. S., “Black hole collision with a scalar particle in four, five and
seven dimensional anti-de Sitter spacetimes: Ringing and radiation”, Phys. Rev. D, 66, 064006
(2002). [DOI], [arXiv:hep-th/0206084].
|
| * | 178 | Cardoso, V. and Lemos, J. P. S., “Black hole collision with a scalar particle in three-dimensional
anti-de Sitter space-time”, Phys. Rev. D, 65, 104032 (2002). [DOI], [arXiv:hep-th/0112254
[hep-th]].
|
| * | 179 | Cardoso, V. and Lemos, José P. S., “Gravitational radiation from collisions at the speed of
light: A Massless particle falling into a Schwarzschild black hole”, Phys. Lett. B, 538, 1–5
(2002). [DOI], [arXiv:gr-qc/0202019 [gr-qc]].
|
| * | 180 | Cardoso, V. and Lemos, J. P. S., “Scalar synchrotron radiation in the Schwarzschild-anti-de
Sitter geometry”, Phys. Rev. D, 65, 104033 (2002). [DOI], [arXiv:hep-th/0201162 [hep-th]].
|
| * | 181 | Cardoso, V., Lemos, J. P. S. and Yoshida, S., “Electromagnetic radiation from collisions at
almost the speed of light: An Extremely relativistic charged particle falling into a Schwarzschild
black hole”, Phys. Rev. D, 68, 084011 (2003). [DOI], [arXiv:gr-qc/0307104 [gr-qc]].
|
| * | 182 | Cardoso, V., Pani, P., Cadoni, M. and Cavaglia, M., “Ergoregion instability of ultracompact
astrophysical objects”, Phys. Rev. D, 77, 124044 (2008). [DOI], [arXiv:0709.0532 [gr-qc]].
|
| * | 183 | Cardoso, V. and Yoshida, S., “Superradiant instabilities of rotating black branes and strings”,
J. High Energy Phys., 2005(07), 009 (2005). [DOI], [arXiv:hep-th/0502206 [hep-th]].
|
| * | 184 | “Carpet: Adaptive Mesh Refinement for the Cactus Framework”, project homepage, Louisiana
State University. URL (accessed 2 April 2014): http://www.carpetcode.org/.
|
| * | 185 | Carrasco, F., Lehner, L., Myers, R. C., Reula, O. and Singh, A., “Turbulent flows for relativistic
conformal fluids in 2+1 dimensions”, Phys. Rev. D, 86, 126006 (2012). [DOI], [arXiv:1210.6702
[hep-th]].
|
| * | 186 | Carroll, S. M., “Lecture Notes on General Relativity”, lecture notes, S. M. Carroll, (1997).
URL (accessed 7 August 2014): http://preposterousuniverse.com/grnotes/.
|
| * | 187 | Carter, B., “Hamilton-Jacobi and Schrodinger separable solutions of Einstein’s equations”, Commun. Math. Phys., 10, 280 (1968). |
| * | 188 | Carter, B., “Axisymmetric Black Hole Has Only Two Degrees of Freedom”, Phys. Rev. Lett.,
26, 331–333 (1971). [DOI].
|
| * | 189 | Casalderrey-Solana, J., Liu, H., Mateos, D., Rajagopal, K. and Wiedemann, U. A.,
“Gauge/String Duality, Hot QCD and Heavy Ion Collisions”, arXiv, e-print, (2011).
[arXiv:1101.0618 [hep-th]].
|
| * | 190 | Caudill, M., Cook, G. B., Grigsby, J. D. and Pfeiffer, H. P., “Circular orbits and spin in
black-hole initial data”, Phys. Rev. D, 74, 064011 (2006). [DOI], [gr-qc/0605053].
|
| * | 191 | Centrella, J. M., Baker, J. G., Kelly, B. J. and van Meter, J. R., “Black-hole binaries,
gravitational waves, and numerical relativity”, Rev. Mod. Phys., 82, 3069 (2010). [DOI],
[arXiv:1010.5260 [gr-qc]].
|
| * | 192 | Chambers, C. M. and Moss, I. G., “Stability of the Cauchy horizon in Kerr-de Sitter
space-times”, Class. Quantum Grav., 11, 1035–1054 (1994). [DOI], [arXiv:gr-qc/9404015 [gr-qc]].
|
| * | 193 | Chandrasekhar, S., “The maximum mass of ideal white dwarfs”, Astrophys. J., 74, 81–82
(1931). [DOI].
|
| * | 194 | Chandrasekhar, S., “The Post-Newtonian Equations of Hydrodynamics in General Relativity”,
Astrophys. J., 142, 1488 (1965). [DOI].
|
| * | 195 | Chandrasekhar, S., The Mathematical Theory of Black Holes, International Series of
Monographs on Physics, 69, (Clarendon Press, Oxford; New York, 1983). [ADS].
|
| * | 196 | Chandrasekhar, S. and Ferrari, V., “On the non-radial oscillations of a star”, Proc. R. Soc. London, Ser. A, 432, 247–279 (1991). |
| * | 197 | Chandrasekhar, S. and Ferrari, V., “On the Non-Radial Oscillations of Slowly Rotating Stars
Induced by the Lense-Thirring Effect”, Proc. R. Soc. London, Ser. A, 433, 423–440 (1991).
[DOI].
|
| * | 198 | Chandrasekhar, S. and Hartle, J., “On Crossing the Cauchy Horizon of a Reissner-Nordström
Black Hole”, Proc. R. Soc. London, Ser. A, 384, 301 (1982). [DOI].
|
| * | 199 | Chatrchyan, S. et al. (CMS Collaboration), “Observation and studies of jet quenching in PbPb
collisions at  = 2.76 TeV”, Phys. Rev. C, 84, 024906 (2011). [DOI], [ADS], [arXiv:1102.1957
[nucl-ex]].
|
| * | 200 | Chatrchyan, S. et al. (CMS Collaboration), “Jet momentum dependence of jet quenching in
PbPb collisions at  = 2.76 TeV”, Phys. Lett. B, 712, 176–197 (2012). [DOI], [ADS],
[arXiv:1202.5022 [nucl-ex]].
|
| * | 201 | Chatrchyan, S. et al. (CMS Collaboration), “Search for microscopic black holes in pp collisions
at  = 7 TeV”, J. High Energy Phys., 2012(04), 061 (2012).
[DOI], [arXiv:1202.6396 [hep-ex]].
|
| * | 202 | Chatrchyan, S. et al. (CMS Collaboration), “Search for microscopic black holes in pp collisions
at  = 8 TeV”, J. High Energy Phys., 2013(07), 178 (2013).
[DOI], [arXiv:1303.5338 [hep-ex]].
|
| * | 203 | Chatziioannou, K., Yunes, N. and Cornish, N., “Model-Independent Test of General Relativity:
An Extended post-Einsteinian Framework with Complete Polarization Content”, Phys. Rev.
D, 86, 022004 (2012). [DOI], [arXiv:1204.2585 [gr-qc]].
|
| * | 204 | Chesler, P. M. and Rajagopal, K., “Jet quenching in strongly coupled plasma”, Phys. Rev. D,
90, 025033 (2014). [DOI], [ADS], [arXiv:1402.6756 [hep-th]].
|
| * | 205 | Chesler, P. M. and Yaffe, L. G., “Horizon formation and far-from-equilibrium isotropization
in supersymmetric Yang-Mills plasma”, Phys. Rev. Lett., 102, 211601 (2009). [DOI],
[arXiv:0812.2053 [hep-th]].
|
| * | 206 | Chesler, P. M. and Yaffe, L. G., “Boost invariant flow, black hole formation, and
far-from-equilibrium dynamics in N = 4 supersymmetric Yang-Mills theory”, Phys. Rev. D,
82, 026006 (2010). [DOI], [arXiv:0906.4426 [hep-th]].
|
| * | 207 | Chesler, P. M. and Yaffe, L. G., “Holography and colliding gravitational shock waves in
asymptotically AdS5 spacetime”, Phys. Rev. Lett., 106, 021601 (2011). [DOI], [arXiv:1011.3562
[hep-th]].
|
| * | 208 | Chesler, P. M. and Yaffe, L. G., “Numerical solution of gravitational dynamics in
asymptotically anti-de Sitter spacetimes”, J. High Energy Phys., 2013(07), 086 (2013). [DOI],
[ADS], [arXiv:1309.1439 [hep-th]].
|
| * | 209 | Ching, E. S. C., Leung, P. T., Suen, W. M. and Young, K., “Wave propagation in gravitational
systems: Late time behavior”, Phys. Rev. D, 52, 2118–2132 (1995). [DOI], [arXiv:gr-qc/9507035
[gr-qc]].
|
| * | 210 | Cho, Y. M., “Dimensional Reduction by Isometry”, Phys. Lett. B, 186, 38 (1987). [DOI].
|
| * | 211 | Cho, Y. M. and Kim, D. S., “Higher Dimensional Unification by Isometry”, J. Math. Phys.,
30, 1570–1578 (1989). [DOI].
|
| * | 212 | Choptuik, M. W., “Universality and Scaling in Gravitational Collapse of a Massless Scalar
Field”, Phys. Rev. Lett., 70, 9–12 (1993). [DOI].
|
| * | 213 | Choptuik, M. W., “The Binary Black Hole Grand Challenge Project”, in Clarke, D. A. and
West, M. J., eds., Computational Astrophysics, Proceedings of the 12th Kingston Meeting on
Theoretical Astrophysics, held in Halifax, Nova Scotia, Canada, October 17 – 19, 1996, ASP
Conference Series, 123, p. 305, (Astronomical Society of the Pacific, San Francisco, 1997).
[ADS].
|
| * | 214 | Choptuik, M. W., Hirschmann, E. W., Liebling, S. L. and Pretorius, F., “An Axisymmetric
Gravitational Collapse Code”, Class. Quantum Grav., 20, 1857–1878 (2003). [DOI],
[gr-qc/0301006].
|
| * | 215 | Choptuik, M. W., Lehner, L., Olabarrieta, I., Petryk, R., Pretorius, F. et al., “Towards
the final fate of an unstable black string”, Phys. Rev. D, 68, 044001 (2003). [DOI],
[arXiv:gr-qc/0304085 [gr-qc]].
|
| * | 216 | Choptuik, M. W. and Pretorius, F., “Ultra Relativistic Particle Collisions”, Phys. Rev. Lett.,
104, 111101 (2010). [DOI], [arXiv:0908.1780 [gr-qc]].
|
| * | 217 | Christodoulou, D, “Reversible and Irreversible Transformations in Black Hole Physics”, Phys.
Rev. Lett., 25, 1596–1597 (1970). [DOI].
|
| * | 218 | Christodoulou, D., “Violation of cosmic censorship in the gravitational collapse of a dust cloud”,
Commun. Math. Phys., 93, 171–195 (1984). [DOI].
|
| * | 219 | Christodoulou, D. and Klainerman, S., The Global Nonlinear Stability of the Minkowski Space,
Princeton Mathematical Series, 41, (Princeton University Press, Princeton, NJ, 1993). [ADS].
|
| * | 220 | Chu, T., Pfeiffer, H. P. and Scheel, M. A., “High accuracy simulations of black hole binaries:
Spins anti-aligned with the orbital angular momentum”, Phys. Rev. D, 80, 124051 (2009).
[DOI], [arXiv:0909.1313 [gr-qc]].
|
| * | 221 | Coelho, F. S., Herdeiro, C. A. R., Rebelo, C. and Sampaio, M., “Radiation from a D-dimensional
collision of shock waves: higher order set up and perturbation theory validity”, Phys. Rev. D,
87, 084034 (2012). [DOI], [arXiv:1206.5839 [hep-th]].
|
| * | 222 | Coelho, F. S., Herdeiro, C. A. R. and Sampaio, M. O. P., “Radiation from a D-dimensional collision
of shock waves: a remarkably simple fit formula”, Phys. Rev. Lett., 108, 181102 (2012). [DOI],
[arXiv:1203.5355 [hep-th]].
|
| * | 223 | Cohen, M. I., Pfeiffer, H. P. and Scheel, M. A., “Revisiting Event Horizon Finders”, Class.
Quantum Grav., 26, 035005 (2009). [DOI], [arXiv:0809.2628 [gr-qc]].
|
| * | 224 | Cook, G. B., “Initial Data for Numerical Relativity”, Living Rev. Relativity, 3, lrr-2000-5
(2000). [DOI], [ADS], [arXiv:gr-qc/0007085 [gr-qc]]. URL (accessed 2 April 2014): http://www.livingreviews.org/lrr-2000-5. |
| * | 225 | Cook, G. B. and Pfeiffer, H., “Excision boundary conditions for black hole initial data”, Phys.
Rev. D, 70, 104016 (2004). [DOI], [gr-qc/0407078].
|
| * | 226 | Cook, G. B. and York Jr, J. W., “Apparent horizons for boosted or spinning black holes”,
Phys. Rev. D, 41, 1077–1085 (1990). [DOI], [ADS].
|
| * | 227 | Cook et al., G. B., “Boosted three-dimensional black-hole evolutions with singularity
excision”, Phys. Rev. lett., 80, 2512–2516 (1998). [DOI], [gr-qc/9711078].
|
| * | 228 | Courant, R., Friedrichs, K. O. and Lewy, H., “Über die partiellen Differenzengleichungen der
mathematischen Physik”, Mathematische Annalen, 100, 32–74 (1928). [DOI], [ADS].
|
| * | 229 | Cunningham, C. T., Price, R. H. and Moncrief, V., “Radiation from collapsing relativistic
stars. I. Linearized odd-parity radiation”, Astrophys. J., 224, 643–667 (1978). [DOI], [ADS].
|
| * | 230 | Cunningham, C. T., Price, R. H. and Moncrief, V., “Radiation from collapsing relativistic
stars. II - Linearized even-parity radiation”, Astrophys. J., 230, 870–892 (1979). [DOI], [ADS].
|
| * | 231 | Cunningham, C. T., Price, R. H. and Moncrief, V., “Radiation from collapsing relativistic
stars. III. Second order perturbations of collapse with rotation”, Astrophys. J., 236, 674–692
(1980). [DOI], [ADS].
|
| * | 232 | Cutler, C., Kennefick, D. and Poisson, E., “Gravitational radiation reaction for bound motion
around a Schwarzschild black hole”, Phys. Rev. D, 50, 3816–3835 (1994). [DOI].
|
| * | 233 | Dafermos, M., “The Interior of charged black holes and the problem of uniqueness in general
relativity”, Commun. Pure Appl. Math., 58, 0445–0504 (2005). [DOI], [arXiv:gr-qc/0307013
[gr-qc]].
|
| * | 234 | Dafermos, M., “Black Holes Without Spacelike Singularities”, Commun. Math. Phys., 332,
729–757 (2014). [DOI], [ADS], [arXiv:1201.1797 [gr-qc]].
|
| * | 235 | Dafermos, M., “Null singularities in general relativity”, New Frontiers in Dynamical Gravity,
Cambridge, 24 – 28 March 2014, conference homepage, University of Cambridge, (2014). URL
(accessed 2 April 2014): http://www.ctc.cam.ac.uk/activities/adsgrav2014/Slides/Slides_Dafermos.pdf.
|
| * | 236 | Dafermos, M. and Rodnianski, I., “The black hole stability problem for linear scalar
perturbations”, in Damour, T., Jantzen, R. and Ruffini, R., eds., The Twelfth Marcel
Grossmann Meeting On Recent Developments in Theoretical and Experimental General
Relativity, Astrophysics and Relativistic Field Theories, Proceedings of the MG12, Paris,
France, 12 – 18 July 2009, pp. 132–189, (World Scientific, Singapore; Hackensack, NJ, 2012).
[DOI], [ADS], [arXiv:1010.5137 [gr-qc]].
|
| * | 237 | Dain, S., Lousto, C. O. and Takahashi, R., “New conformally flat initial data for spinning
black holes”, Phys. Rev. D, 65, 104038 (2002). [DOI], [gr-qc/0201062].
|
| * | 238 | Dain, S., Lousto, C. O. and Zlochower, Y., “Extra-Large Remnant Recoil Velocities and Spins
from Near- Extremal-Bowen-York-Spin Black-Hole Binaries”, Phys. Rev. D, 78, 024039 (2008).
[DOI], [arXiv:0803.0351 [gr-qc]].
|
| * | 239 | Damour, T., “The Problem of Motion in Newtonian and Einstein Gravity”, in Hawking, S. W.
and Israel, W., eds., Three Hundred Years of Gravitation, pp. 128–198, (Cambridge University
Press, Cambridge; New York, 1987). [ADS].
|
| * | 240 | Damour, T., “The General Relativistic Two Body Problem and the Effective One Body
Formalism”, in Bičák, J. and Ledvinka, T., eds., General Relativity, Cosmology and
Astrophysics: Perspectives 100 years after Einstein’s stay in Prague, Fundamental Theories of
Physics, 177, pp. 111–145, (Springer, Cham; New York, 2012). [DOI], [ADS], [arXiv:1212.3169
[gr-qc]].
|
| * | 241 | Damour, T., Deruelle, N. and Ruffini, R., “On quantum resonances in stationary geometries”,
Lett. Nuovo Cimento, 15, 257–262 (1976). [DOI].
|
| * | 242 | Damour, T. and Esposito-Farèse, G., “Tensor multiscalar theories of gravitation”, Class.
Quantum Grav., 9, 2093–2176 (1992). [DOI].
|
| * | 243 | Damour, T. and Esposito-Farèse, G., “Nonperturbative strong-field effects in tensor-scalar
theories of gravitation”, Phys. Rev. Lett., 70, 2220–2223 (1993). [DOI].
|
| * | 244 | Damour, T. and Esposito-Farèse, G., “Tensor-scalar gravity and binary pulsar experiments”,
Phys. Rev. D, 54, 1474–1491 (1996). [DOI], [arXiv:gr-qc/9602056 [gr-qc]].
|
| * | 245 | Damour, T., Guercilena, F., Hinder, I., Hopper, S., Nagar, A. and Rezzolla, L., “Strong-field
scattering of two black holes: Numerics versus analytics”, Phys. Rev. D, 89, 081503 (2014).
[DOI], [ADS], [arXiv:1402.7307 [gr-qc]].
|
| * | 246 | Damour, T., Jaranowski, P. and Schäfer, G., “Equivalence between the ADM-Hamiltonian
and the harmonic-coordinates approaches to the third post-Newtonian dynamics of compact
binaries”, Phys. Rev. D, 63, 044021 (2001). [DOI], [arXiv:gr-qc/0010040 [gr-qc]]. Erratum:
10.1103/PhysRevD.66.029901.
|
| * | 247 | Damour, T. and Nagar, A., “Improved analytical description of inspiralling and coalescing
black-hole binaries”, Phys. Rev. D, 79, 081503 (2009). [DOI], [ADS], [arXiv:0902.0136 [gr-qc]].
|
| * | 248 | Damour, T. and Nagar, A., “Effective One Body description of tidal effects in inspiralling
compact binaries”, Phys. Rev. D, 81, 084016 (2010). [DOI], [arXiv:0911.5041 [gr-qc]].
|
| * | 249 | Damour, T. and Nagar, A., “The Effective One Body description of the Two-Body problem”,
Fundam. Theor. Phys., 162, 211–252 (2011). [arXiv:0906.1769 [gr-qc]].
|
| * | 250 | Davis, M., Ruffini, R., Press, W. H. and Price, R. H., “Gravitational radiation from a particle
falling radially into a schwarzschild black hole”, Phys. Rev. Lett., 27, 1466–1469 (1971). [DOI].
|
| * | 251 | Davis, M., Ruffini, R. and Tiomno, J., “Pulses of Gravitational Radiation of a Particle Falling
Radially into a Schwarzschild Black Hole”, Phys. Rev. D, 5, 2932–2935 (1972). [DOI], [ADS].
|
| * | 252 | Davis, M., Ruffini, R., Tiomno, J. and Zerilli, F., “Can synchrotron gravitational radiation
exist?”, Phys. Rev. Lett., 28, 1352–1355 (1972). [DOI].
|
| * | 253 | de Haro, S., Solodukhin, S, N. and Skenderis, K., “Holographic Reconstruction of Spacetime
and Renormalization in the AdS/CFT Correspondence”, Commun. Math. Phys., 217, 595–622
(2001). [DOI], [arXiv:hep-th/0002230].
|
| * | 254 | de Sitter, W., “On Einstein’s theory of gravitation and its astronomical consequences. Second paper”, Mon. Not. R. Astron. Soc., 77, 155–184 (1916). |
| * | 255 | de Sitter, W., “On the relativity of inertia. Remarks concerning Einstein’s latest hypothesis”,
Proc. K. Ned. Akad. Wetensch. Series B Physical Sciences, 19, 1217–1225 (1917). [ADS].
|
| * | 256 | D’Eath, P. D., “High-speed black-hole encounters and gravitational radiation”, Phys. Rev. D,
18, 990–1019 (1978). [DOI].
|
| * | 257 | D’Eath, P. D. and Payne, P. N., “Gravitational radiation in black-hole collisions at the speed
of light. I. Perturbation treatment of the axisymmetric collision”, Phys. Rev. D, 46, 658–674
(1992). [DOI].
|
| * | 258 | D’Eath, P. D. and Payne, P. N., “Gravitational radiation in high speed black hole collisions.
2. Reduction to two independent variables and calculation of the second order news function”,
Phys. Rev. D, 46, 675–693 (1992). [DOI].
|
| * | 259 | D’Eath, P. D. and Payne, P. N., “Gravitational radiation in high speed black hole collisions.
3. Results and conclusions”, Phys. Rev. D, 46, 694–701 (1992). [DOI].
|
| * | 260 | Deffayet, C., Gao, X., Steer, D. A. and Zahariade, G., “From k-essence to generalised
Galileons”, Phys. Rev. D, 84, 064039 (2011). [DOI], [arXiv:1103.3260 [hep-th]].
|
| * | 261 | Degollado, J. C. and Herdeiro, C. A. R., “Stationary scalar configurations around extremal
charged black holes”, Gen. Relativ. Gravit., 45, 2483–2492 (2013). [DOI], [arXiv:1303.2392
[gr-qc]].
|
| * | 262 | Degollado, J. C. and Herdeiro, C. A. R., “Time evolution of superradiant instabilities for
charged black holes in a cavity”, Phys. Rev. D, 89, 063005 (2014). [DOI], [arXiv:1312.4579
[gr-qc]].
|
| * | 263 | Delsate, T., Hilditch, D. and Witek, H., “Initial value formulation of dynamical Chern-Simons
gravity”, Phys. Rev. D, 91, 024027 (2014). [DOI], [ADS], [arXiv:1407.6727 [gr-qc]].
|
| * | 264 | Dennison, K. A., Wendell, J. P., Baumgarte, T. W. and Brown, J. D., “Trumpet slices of the
Schwarzschild-Tangherlini spacetime”, Phys. Rev. D, 82, 124057 (2010). [DOI], [arXiv:1010.5723
[gr-qc]].
|
| * | 265 | Deppe, N., Leonard, C. D., Taves, T., Kunstatter, G. and Mann, R. B., “Critical Collapse in
Einstein-Gauss-Bonnet Gravity in Five and Six Dimensions”, Phys. Rev. D, 86, 104011 (2012).
[DOI], [arXiv:1208.5250 [gr-qc]].
|
| * | 266 | Detweiler, S. and Lindblom, L., “On the nonradial pulsations of general relativistic stellar
models”, Astrophys. J., 292, 12–15 (1985). [DOI].
|
| * | 267 | Detweiler, S. L., “Black Holes and Gravitational Waves. I. Circular Orbits About a Rotating
Hole”, Astrophys. J., 225, 687–693 (1978). [DOI].
|
| * | 268 | Detweiler, S. L., “Klein–Gordon equation and rotating black holes”, Phys. Rev. D, 22,
2323–2326 (1980). [DOI].
|
| * | 269 | Detweiler, S. L. and Szedenits, E., “Black holes and gravitational waves. II. Trajectories
plunging into a nonrotating hole”, Astrophys. J., 231, 211–218 (1979). [DOI].
|
| * | 270 | Dias, Ó. J. C., Figueras, P., Monteiro, R., Reall, H. S. and Santos, J. E., “An instability of
higher-dimensional rotating black holes”, J. High Energy Phys., 2010(05), 076 (2010). [DOI],
[arXiv:1001.4527 [hep-th]].
|
| * | 271 | Dias, Ó. J. C., Figueras, P., Monteiro, R. and Santos, J. E., “Ultraspinning instability of
rotating black holes”, Phys. Rev. D, 82, 104025 (2010). [DOI], [arXiv:1006.1904 [hep-th]].
|
| * | 272 | Dias, Ó. J. C., Figueras, P., Monteiro, R., Santos, J. E. and Emparan, R., “Instability and
new phases of higher-dimensional rotating black holes”, Phys. Rev. D, 80, 111701 (2009). [DOI],
[arXiv:0907.2248 [hep-th]].
|
| * | 273 | Dias, Ó. J. C., Hartnett, G. S. and Santos, J. E., “Quasinormal modes of asymptotically flat
rotating black holes”, Class. Quantum Grav., 31, 245011 (2014). [DOI], [ADS], [arXiv:1402.7047
[hep-th]].
|
| * | 274 | Dias, Ó. J. C., Horowitz, G. T., Marolf, D. and Santos, J. E., “On the Nonlinear Stability
of Asymptotically Anti-de Sitter Solutions”, Class. Quantum Grav., 29, 235019 (2012). [DOI],
[arXiv:1208.5772 [gr-qc]].
|
| * | 275 | Dias, Ó. J. C., Horowitz, G. T. and Santos, J. E., “Black holes with only one Killing field”,
J. High Energy Phys., 2011(07), 115 (2011). [DOI], [arXiv:1105.4167 [hep-th]].
|
| * | 276 | Dias, Ó. J. C. and Santos, J. E., “Boundary Conditions for Kerr-AdS Perturbations”, J. High
Energy Phys., 2013(10), 156 (2013). [DOI], [arXiv:1302.1580 [hep-th]].
|
| * | 277 | Dias, Ó. J. C., Santos, J. E. and Stein, M., “Kerr-AdS and its Near-horizon Geometry:
Perturbations and the Kerr/CFT Correspondence”, J. High Energy Phys., 2012(10), 182
(2012). [DOI], [arXiv:1208.3322 [hep-th]].
|
| * | 278 | Diener, P., “A new general purpose event horizon finder for 3-D numerical space-times”, Class.
Quantum Grav., 20, 4901–4918 (2003). [DOI], [gr-qc/0305039].
|
| * | 279 | Dimopoulos, S. and Landsberg, G. L., “Black holes at the LHC”, Phys. Rev. Lett., 87, 161602
(2001). [DOI], [arXiv:hep-ph/0106295 [hep-ph]].
|
| * | 280 | Dolan, S. R., “Superradiant instabilities of rotating black holes in the time domain”, Phys.
Rev. D, 87, 124026 (2013). [DOI], [arXiv:1212.1477 [gr-qc]].
|
| * | 281 | Dreyer, O., Krishnan, B., Shoemaker, D. and Schnetter, E., “Introduction to isolated horizons
in numerical relativity”, Phys. Rev. D, 67, 024018 (2003). [DOI], [arXiv:gr-qc/0206008].
|
| * | 282 | Duenas-Vidal, A. and Vázquez-Mozo, M. A., “Colliding AdS gravitational shock waves in
various dimensions and holography”, J. High Energy Phys., 2010(07), 021 (2010). [DOI],
[arXiv:1004.2609 [hep-th]].
|
| * | 283 | Duff, M. J., “Kaluza-Klein theory in perspective”, in Lindström, U., ed., The Oskar Klein
Centenary, Proceedings of the Symposium held in Stockholm, Sweden, September 19 – 21, 1994,
pp. 22–35, (World Scientific, Singapore; River Edge, NJ, 1995). [ADS], [arXiv:hep-th/9410046
[hep-th]].
|
| * | 284 | Duff, M. J., Khuri, R. R. and Lu, J. X., “String solitons”, Phys. Rep., 259, 213–326 (1995).
[DOI], [arXiv:hep-th/9412184 [hep-th]].
|
| * | 285 | Duff, M. J. and Lu, J. X., “Black and super p-branes in diverse dimensions”, Nucl. Phys. B,
416, 301–334 (1994). [DOI], [arXiv:hep-th/9306052 [hep-th]].
|
| * | 286 | Eardley, D. M. and Giddings, S. B., “Classical black hole production in high-energy collisions”,
Phys. Rev. D, 66, 044011 (2002). [DOI], [arXiv:gr-qc/0201034 [gr-qc]].
|
| * | 287 | Eardley, D. M. and Smarr, L., “Time function in numerical relativity. Marginally bound dust
collapse”, Phys. Rev. D, 19, 2239–2259 (1979). [DOI].
|
| * | 288 | East, W. E. and Pretorius, F., “Ultrarelativistic black hole formation”, Phys. Rev. Lett., 110,
101101 (2013). [DOI], [arXiv:1210.0443 [gr-qc]].
|
| * | 289 | East, W. E., Ramazanoğlu, F. M. and Pretorius, F., “Black Hole Superradiance in Dynamical
Spacetime”, Phys. Rev. D, 89, 061503 (2014). [DOI], [arXiv:1312.4529 [gr-qc]].
|
| * | 290 | Echeverria, F., “Gravitational wave measurements of the mass and angular momentum of a
black hole”, Phys. Rev. D, 40, 3194–3203 (1989). [DOI].
|
| * | 291 | Eddington, A. S., The Mathematical Theory of Relativity, (Cambridge University Press, Cambridge, 1924), 2nd edition. 1954 reprint. |
| * | 292 | Ehlers, J., “Isolated systems in general relativity”, Ann. N.Y. Acad. Sci., 336, 279–294 (1980).
[DOI].
|
| * | 293 | Einstein, A., “Die Feldgleichungen der Gravitation”, Sitzungsber. K. Preuss. Akad. Wiss., Phys.-Math. Kl., 1915, 844–847 (1915). |
| * | 294 | Einstein, A., “Näherungsweise Integration der Feldgleichungen der Gravitation”, Sitzungsber.
K. Preuss. Akad. Wiss., Phys.-Math. Kl., 1916, 688–696 (1916). [ADS].
|
| * | 295 | Einstein, A., “Näherungsweise Integration der Feldgleichungen der Gravitation”, Sitzungsber.
K. Preuss. Akad. Wiss., Phys.-Math. Kl., 1916, 688–696 (1916). [ADS].
|
| * | 296 | Einstein, A., “Über Gravitationswellen”, Sitzungsber. K. Preuss. Akad. Wiss., 1918, 154–167
(1918). [ADS].
|
| * | 297 | Einstein, A., “Über Gravitationswellen”, Sitzungsber. K. Preuss. Akad. Wiss., 1918, 154–167 (1918). |
| * | 298 | Einstein, A., Infeld, L. and Hoffmann, B., “The Gravitational Equations and the Problem of
Motion”, Ann. Math. (2), 39, 65–100 (1938). [DOI].
|
| * | 299 | “Einstein Telescope”, project homepage, European Gravitational Observatory (EGO), (2008).
URL (accessed 2 April 2014): http://www.et-gw.eu/.
|
| * | 300 | “Einstein Toolkit: Open software for relativistic astrophysics”, project homepage, Louisiana
State University. URL (accessed 2 April 2014): http://einsteintoolkit.org.
|
| * | 301 | “ELI - extreme light infrastructure”, project homepage, ELI Delivery Consortium. URL
(accessed 2 April 2014): http://www.eli-laser.eu/.
|
| * | 302 | “eLISA”, project homepage, Max Planck Institute for Gravitational Physics (Albert Einstein
Institute). URL (accessed 2 April 2014): https://www.elisascience.org/.
|
| * | 303 | Elvang, H. and Figueras, P., “Black Saturn”, J. High Energy Phys., 2007(05), 050 (2007).
[DOI], [arXiv:hep-th/0701035 [hep-th]].
|
| * | 304 | Emparan, R., Masip, M. and Rattazzi, R., “Cosmic rays as probes of large extra dimensions
and TeV gravity”, Phys. Rev. D, 65, 064023 (2002). [DOI], [arXiv:hep-ph/0109287 [hep-ph]].
|
| * | 305 | Emparan, R. and Myers, R. C., “Instability of ultra-spinning black holes”, J. High Energy
Phys., 2003(09), 025 (2003). [DOI], [arXiv:hep-th/0308056 [hep-th]].
|
| * | 306 | Emparan, R. and Reall, H. S., “Generalized Weyl solutions”, Phys. Rev. D, 65, 084025 (2002).
[DOI], [arXiv:hep-th/0110258 [hep-th]].
|
| * | 307 | Emparan, R. and Reall, H. S., “A rotating black ring solution in five dimensions”, Phys. Rev.
Lett., 88, 101101 (2002). [DOI], [arXiv:hep-th/0110260 [hep-th]].
|
| * | 308 | Emparan, R. and Reall, H. S., “Black Holes in Higher Dimensions”, Living Rev. Relativity, 11,
lrr-2008-6 (2008). [DOI], [ADS], [arXiv:0801.3471 [hep-th]]. URL (accessed 2 April 2014): http://www.livingreviews.org/lrr-2008-6. |
| * | 309 | Emparan, R., Suzuki, R. and Tanabe, K., “The large D limit of General Relativity”, J. High
Energy Phys., 2013(06), 009 (2013). [DOI], [arXiv:1302.6382 [hep-th]].
|
| * | 310 | Emparan, R., Suzuki, R. and Tanabe, K., “Instability of rotating black holes: large D analysis”,
J. High Energy Phys., 2014(06), 106 (2014). [DOI], [ADS], [arXiv:1402.6215 [hep-th]].
|
| * | 311 | Eppley, K. R., The Numerical Evolution of the Collision of Two Black Holes, Ph.D. thesis,
(Princeton University, Princeton, New Jersey, 1975). [ADS].
|
| * | 312 | Estabrook, F., Wahlquist, H., Christensen, S., DeWitt, B., Smarr, L. et al., “Maximally slicing
a black hole”, Phys. Rev. D, 7, 2814–2817 (1973). [DOI].
|
| * | 313 | Etienne, Z. B., Baker, J. G., Paschalidis, V., Kelly, B. J. and Shapiro, S. L., “Improved
moving puncture gauge conditions for compact binary evolutions”, Phys. Rev. D, 90, 064032
(2014). [DOI], [ADS], [arXiv:1404.6523 [astro-ph]].
|
| * | 314 | Fefferman, C. and Graham, R., “Conformal invariants”, in Élie Cartan et les Mathématiques d’Aujourd’hui, The mathematical heritage of Elie Cartan, Lyon, 25 – 29, 1984, Astérisque, p. 95. Société mathématique de France, (1985). |
| * | 315 | Feng, J. L. and Shapere, A. D., “Black hole production by cosmic rays”, Phys. Rev. Lett., 88,
021303 (2002). [DOI], [arXiv:hep-ph/0109106 [hep-ph]].
|
| * | 316 | Ferrari, V. and Gualtieri, L., “Quasi-Normal Modes and Gravitational Wave Astronomy”, Gen.
Relativ. Gravit., 40, 945–970 (2008). [DOI], [arXiv:0709.0657 [gr-qc]].
|
| * | 317 | Ferrari, V. and Ruffini, R., “On the structure of gravitational wave bursts: implosion with finite
kinetic energy”, Phys. Lett. B, 98, 381–384 (1981). [DOI].
|
| * | 318 | Figueras, P. and Wiseman, T., “Gravity and large black holes in Randall-Sundrum II
braneworlds”, Phys. Rev. Lett., 107, 081101 (2011). [DOI], [arXiv:1105.2558 [hep-th]].
|
| * | 319 | Figueras, P. and Wiseman, T., “Stationary holographic plasma quenches and numerical
methods for non-Killing horizons”, Phys. Rev. Lett., 110, 171602 (2013). [DOI], [arXiv:1212.4498
[hep-th]].
|
| * | 320 | Finkelstein, D., “Past-Future Asymmetry of the Gravitational Field of a Point Particle”, Phys.
Rev., 110, 965–967 (1958). [DOI].
|
| * | 321 | Fischer, A. E. and Marsden, J. E., “The Einstein evolution equations as a first-order
quasi-linear symmetric hyperbolic system, I”, Commun. Math. Phys., 28, 1–38 (1972). [DOI].
|
| * | 322 | Fitchett, M. J., “The influence of gravitational wave momentum losses on the centre of mass
motion of a Newtonian binary system”, Mon. Not. R. Astron. Soc., 203, 1049–1062 (1983).
[DOI].
|
| * | 323 | Flanagan, E. E. and Hinderer, T., “Constraining neutron star tidal Love numbers with
gravitational wave detectors”, Phys. Rev. D, 77, 021502 (2008). [DOI], [arXiv:0709.1915
[astro-ph]].
|
| * | 324 | Fock, V, “On motion of finite masses in general relativity”, J. Phys.(Moscow), 1, 81–116 (1939). |
| * | 325 | Fock, V. A., The Theory of Space, Time and Gravitation, (Pergamon Press, Oxford; New York, 1964), 2nd rev. edition. |
| * | 326 | Fodor, G., Forgács, P. and Grandclément, P., “Scalar field breathers on anti-de Sitter
background”, Phys. Rev. D, 89, 065027 (2014). [DOI], [ADS], [arXiv:1312.7562 [hep-th]].
|
| * | 327 | Fourès-Bruhat, Y., “Théorèmes d’existence pour certains systèmes d’équations aux
dérivées partielles non linéaires”, Acta Math., 88, 141–225 (1952). [DOI].
|
| * | 328 | Frauendiener, J., “Conformal Infinity”, Living Rev. Relativity, 7, lrr-2004-1 (2004). [DOI],
[ADS]. URL (accessed 2 April 2014): http://www.livingreviews.org/lrr-2004-1. |
| * | 329 | Frauendiener, J. and Hein, M., “Numerical evolution of axisymmetric, isolated systems in
general relativity”, Phys. Rev. D, 66, 124004 (2002). [DOI], [gr-qc/0207094].
|
| * | 330 | Friedman, J. L. and Stergioulas, N., Rotating Relativistic Stars, Cambridge Monographs on
Mathematical Physics, (Cambridge Uiversity Press, Cambridge; New York, 2013). [ADS].
|
| * | 331 | Friedrich, H., “The asymptotic characteristic initial value problem for Einstein’s vacuum field
equations as an initial value problem for a first-order quasilinear symmetric hyperbolic system”,
Proc. R. Soc. London, Ser. A, 378, 401–421 (1981). [DOI].
|
| * | 332 | Friedrich, H., “On the Regular and Asymptotic Characteristic Initial Value Problem for
Einstein’s Vacuum Field Equations”, Proc. R. Soc. London, Ser. A, 375, 169–184 (1981). [DOI].
|
| * | 333 | Friedrich, H., “On the Hyperbolicity of Einstein’s and Other Gauge Field Equations”, Commun.
Math. Phys., 100, 525 (1985). [DOI].
|
| * | 334 | Friedrich, H., “Hyperbolic reductions for Einstein’s equations”, Class. Quantum Grav., 13,
1451–1469 (1996). [DOI].
|
| * | 335 | Friedrich, H. and Nagy, G., “The Initial boundary value problem for Einstein’s vacuum field
equations”, Commun. Math. Phys., 201, 619–655 (1999). [DOI].
|
| * | 336 | Frost, J. A., Gaunt, J. R., Sampaio, M. O. P., Casals, M., Dolan, S. R. et al.,
“Phenomenology of Production and Decay of Spinning Extra-Dimensional Black Holes at
Hadron Colliders”, J. High Energy Phys., 2009(10), 014 (2009). [DOI], [arXiv:0904.0979
[hep-ph]].
|
| * | 337 | Fujii, Y. and Maeda, K.-I., The Scalar-Tensor Theory of Gravitation, Cambridge Monographs
on Mathematical Physics, (Cambridge University Press, Cambridge; New York, 2003). [ADS],
[Google Books].
|
| * | 338 | Fujita, R., Hikida, W. and Tagoshi, H., “An Efficient Numerical Method for Computing
Gravitational Waves Induced by a Particle Moving on Eccentric Inclined Orbits around a Kerr
Black Hole”, Prog. Theor. Phys., 121, 843–874 (2009). [DOI], [arXiv:0904.3810 [gr-qc]].
|
| * | 339 | Furuhashi, H. and Nambu, Y., “Instability of massive scalar fields in Kerr-Newman space-time”,
Prog. Theor. Phys., 112, 983–995 (2004). [DOI], [arXiv:gr-qc/0402037 [gr-qc]].
|
| * | 340 | Galley, C. R. and Hu, B. L., “Self-force on extreme mass ratio inspirals via curved spacetime
effective field theory”, Phys. Rev. D, 79, 064002 (2009). [DOI], [arXiv:0801.0900 [gr-qc]].
|
| * | 341 | Garat, A. and Price, R. H., “Nonexistence of conformally flat slices of the Kerr spacetime”,
Phys. Rev. D, 61, 124011 (2000). [DOI], [gr-qc/0002013].
|
| * | 342 | Garay, L. J. and García-Bellido, J., “Jordan-Brans-Dicke quantum wormholes and Coleman’s
mechanism”, Nucl. Phys. B, 400, 416–434 (1993). [DOI], [arXiv:gr-qc/9209015 [gr-qc]].
|
| * | 343 | Garfinkle, D., “Harmonic coordinate method for simulating generic singularities”, Phys. Rev.
D, 65, 044029 (2002). [DOI], [gr-qc/0110013].
|
| * | 344 | Garfinkle, D., Cutler, C. and Duncan, G. C., “Choptuik scaling in six dimensions”, Phys. Rev.
D, 60, 104007 (1999). [DOI], [arXiv:gr-qc/9908044 [gr-qc]].
|
| * | 345 | Garrison, D., “Numerical Relativity as a Tool for Studying the Early Universe”, J. Gravity,
2014, 407197 (2014). [DOI], [ADS], [arXiv:1207.7097 [gr-qc]].
|
| * | 346 | Gerlach, U. H. and Sengupta, U. K., “Gauge invariant perturbation on most general
spherically symmetric space-times”, Phys. Rev. D, 19, 2268–2272 (1979). [DOI].
|
| * | 347 | Geroch, R., “A method for generating solutions of Einstein’s equations”, J. Math. Phys., 12,
918–924 (1970). [DOI].
|
| * | 348 | Giacomazzo, B., Rezzolla, L. and Stergioulas, N., “Collapse of differentially rotating neutron
stars and cosmic censorship”, Phys. Rev. D, 84, 024022 (2011). [DOI], [arXiv:1105.0122 [gr-qc]].
|
| * | 349 | Gibbons, G. W., “The Maximum tension principle in general relativity”, Found. Phys., 32,
1891–1901 (2002). [DOI], [arXiv:hep-th/0210109 [hep-th]].
|
| * | 350 | Gibbons, G. W., Lu, H., Page, D. N. and Pope, C. N., “Rotating black holes in higher
dimensions with a cosmological constant”, Phys. Rev. Lett., 93, 171102 (2004). [DOI],
[arXiv:hep-th/0409155 [hep-th]].
|
| * | 351 | Gibbons, G. W., Lu, H., Page, D. N. and Pope, C. N., “The general Kerr–de Sitter metrics
in all dimensions”, J. Geom. Phys., 53, 49–73 (2005). [DOI], [arXiv:hep-th/0404008 [hep-th]].
|
| * | 352 | Gibbons, G. W. and Maeda, K.-I., “Black Holes and Membranes in Higher Dimensional
Theories with Dilaton Fields”, Nucl. Phys. B, 298, 741 (1988). [DOI].
|
| * | 353 | Giddings, S. B. and Thomas, S. D., “High-energy colliders as black hole factories: The End of
short distance physics”, Phys. Rev. D, 65, 056010 (2002). [DOI], [arXiv:hep-ph/0106219 [hep-ph]].
|
| * | 354 | Glampedakis, K., “Extreme mass ratio inspirals: LISA’s unique probe of black hole gravity”,
Class. Quantum Grav., 22, S605–S659 (2005). [DOI], [arXiv:gr-qc/0509024 [gr-qc]].
|
| * | 355 | Gold, R. and Brügmann, B., “Radiation from low-momentum zoom-whirl orbits”, Class.
Quantum Grav., 27, 084035 (2010). [DOI], [arXiv:0911.3862 [gr-qc]].
|
| * | 356 | Goldberg, J. N., Macfarlane, A. J., Newman, E. T., Rohrlich, F. and Sudarshan, E. C. G., “Spin-s Spherical Harmonics and ∂”, J. Math. Phys., 8, 2155–2161 (1967). |
| * | 357 | Goldberg, J. N. and Sachs, R. K., “A theorem on Petrov types”, Acta Phys. Pol. (Suppl.), 22,
13 (1962). [DOI], [ADS]. republication.
|
| * | 358 | Goldberger, W. D., “Les Houches lectures on effective field theories and gravitational
radiation”, arXiv, e-print, (2007). [ADS], [arXiv:hep-ph/0701129].
|
| * | 359 | Goldstine, H. H., The Computer: from Pascal to von Neumann, (Princeton University Press, Princeton, NJ, 1972). |
| * | 360 | Goldstine, H. H., ed., A History of Numerical Analysis from the 16th Through the 19th
Century, Studies in the History of Mathematics and Physical Sciences, 2, (Springer, New York;
Heidelberg, 1977). [ADS].
|
| * | 361 | Goldwirth, D. S. and Piran, T., “Gravitational Collapse of Massless Scalar Field and Cosmic
Censorship”, Phys. Rev. D, 36, 3575 (1987). [DOI].
|
| * | 362 | Gómez, R. et al. (Binary Black Hole Grand Challenge Alliance), “Stable characteristic
evolution of generic three-dimensional single-black-hole spacetimes”, Phys. Rev. Lett., 80,
3915–3918 (1998). [DOI], [ADS].
|
| * | 363 | González, J. A., Hannam, M. D., Sperhake, U., Brügmann, B. and Husa, S., “Supermassive
kicks for spinning black holes”, Phys. Rev. Lett., 98, 231101 (2007). [DOI], [gr-qc/0702052].
|
| * | 364 | Gourgoulhon, E., “3+1 formalism and bases of numerical relativity”, arXiv, e-print, (2007).
[ADS], [arXiv:gr-qc/0703035].
|
| * | 365 | Grandclément, P. and Novak, J., “Spectral Methods for Numerical Relativity”, Living Rev.
Relativity, 12, lrr-2009-1 (2009). [DOI], [ADS], [arXiv:0706.2286 [gr-qc]]. URL (accessed 2 April
2014): http://www.livingreviews.org/lrr-2009-1. |
| * | 366 | Green, M. B., Schwarz, J. H. and Witten, E., Superstring Theory. Vol 1: Introduction,
Cambridge Monographs on Mathematical Physics, (Cambridge University Press, Cambridge;
New York, 1987). [Google Books].
|
| * | 367 | Gregory, R. and Laflamme, R., “Black strings and p-branes are unstable”, Phys. Rev. Lett.,
70, 2837–2840 (1993). [DOI], [arXiv:hep-th/9301052].
|
| * | 368 | Gregory, R. and Laflamme, R., “The Instability of charged black strings and p-branes”, Nucl.
Phys. B, 428, 399–434 (1994). [DOI], [arXiv:hep-th/9404071].
|
| * | 369 | Grishchuk, L. P., “Amplification of gravitational waves in an istropic universe”, Sov. Phys. JETP, 40, 409–415 (1975). |
| * | 370 | Grishchuk, L. P., “Gravitational wave astronomy”, Sov. Phys. Usp., 31, 940–954 (1988). [DOI].
|
| * | 371 | Gubser, S. S., “On nonuniform black branes”, Class. Quantum Grav., 19, 4825–4844 (2002).
[DOI], [arXiv:hep-th/0110193 [hep-th]].
|
| * | 372 | Gubser, S. S., Klebanov, I. R. and Polyakov, A. M., “Gauge theory correlators from
non-critical string theory”, Phys. Lett. B, 428, 105–114 (1998). [DOI], [arXiv:hep-th/9802109].
|
| * | 373 | Guica, M., Hartman, T., Song, W. and Strominger, A., “The Kerr/CFT Correspondence”,
Phys. Rev. D, 80, 124008 (2009). [DOI], [arXiv:0809.4266 [hep-th]].
|
| * | 374 | Gundlach, C., “Pseudospectral apparent horizon finders: An efficient new algorithm”, Phys.
Rev. D, 57, 863–875 (1998). [DOI], [gr-qc/9707050].
|
| * | 375 | Gundlach, C., “Critical phenomena in gravitational collapse”, Phys. Rep., 376, 339–405 (2003).
[DOI], [arXiv:gr-qc/0210101 [gr-qc]].
|
| * | 376 | Gundlach, C., Akcay, S., Barack, L. and Nagar, A., “Critical phenomena at the threshold of
immediate merger in binary black hole systems: the extreme mass ratio case”, Phys. Rev. D,
86, 084022 (2012). [DOI], [arXiv:1207.5167 [gr-qc]].
|
| * | 377 | Gundlach, C., Calabrese, G., Hinder, I. and Martín-García, J. M., “Constraint damping in
the Z4 formulation and harmonic gauge”, Class. Quantum Grav., 22, 3767–3773 (2005). [DOI].
|
| * | 378 | Gundlach, C. and Martín-García, J. M., “Symmetric hyperbolic form of systems of
second-order evolution equations subject to constraints”, Phys. Rev. D, 70, 044031 (2004).
[DOI], [gr-qc/0403019].
|
| * | 379 | Gundlach, C. and Martín-García, J. M., “Symmetric hyperbolicity and consistent boundary
conditions for second-order Einstein equations”, Phys. Rev. D, 70, 044032 (2004). [DOI],
[gr-qc/0403019].
|
| * | 380 | Gundlach, C. and Martín-García, J. M., “Well-posedness of formulations of the Einstein
equations with dynamical lapse and shift conditions”, Phys. Rev. D, 74, 024016 (2006). [DOI],
[gr-qc/0604035].
|
| * | 381 | Gundlach, C. and Martín-García, J. M., “Critical Phenomena in Gravitational Collapse”,
Living Rev. Relativity, 10, lrr-2007-5 (2007). [DOI], [ADS], [arXiv:0711.4620 [gr-qc]]. URL
(accessed 2 April 2014): http://www.livingreviews.org/lrr-2007-5. |
| * | 382 | Gundlach, C., Price, R. H. and Pullin, J., “Late time behavior of stellar collapse and explosions:
2. Nonlinear evolution”, Phys. Rev. D, 49, 890–899 (1994). [DOI], [arXiv:gr-qc/9307010 [gr-qc]].
|
| * | 383 | Gustafsson, B., Kreiss, H.-O. and Oliger, J., Time Dependent Problems and Difference Methods,
Pure and Applied Mathematics, (Wiley, New York, 1995). [Google Books].
|
| * | 384 | “HAD: Distributed AMR infrastructure for PDEs”, project homepage, Long Island University.
URL (accessed 4 July 2014): http://had.liu.edu/.
|
| * | 385 | Hahn, S. G. and Lindquist, R. W., “The two-body problem in geometrodynamics”, Ann. Phys.
(N.Y.), 29, 304–331 (1964). [DOI], [ADS].
|
| * | 386 | Hamilton, A. J. S., “The Interior structure of slowly rotating black holes”, Class. Quantum
Grav., 26, 165006 (2009). [DOI], [arXiv:0903.2021 [gr-qc]].
|
| * | 387 | Hamilton, A. J. S., “The interior structure of rotating black holes 2. Uncharged black holes”,
Phys. Rev. D, 84, 124056 (2011). [DOI], [arXiv:1010.1271 [gr-qc]].
|
| * | 388 | Hamilton, A. J. S. and Avelino, P. P., “The Physics of the relativistic counter-streaming
instability that drives mass inflation inside black holes”, Phys. Rep., 495, 1–32 (2010). [DOI],
[arXiv:0811.1926 [gr-qc]].
|
| * | 389 | Hannam, M., Husa, S., Bruegmann, B. and Gopakumar, A., “Comparison between
numerical-relativity and post-Newtonian waveforms from spinning binaries: The Orbital
hang-up case”, Phys. Rev. D, 78, 104007 (2008). [DOI], [arXiv:0712.3787 [gr-qc]].
|
| * | 390 | Hannam, M., Husa, S., Ohme, F., Brügmann, B. and O’Murchadha, N., “Wormholes and
trumpets: The Schwarzschild spacetime for the moving-puncture generation”, Phys. Rev. D,
78, 064020 (2008). [DOI], [arXiv:0804.0628 [gr-qc]].
|
| * | 391 | Hannam, M. D., Husa, S., Brügmann, B., González, J. A. and Sperhake, U., “Beyond the
Bowen-York extrinsic curvature for spinning black holes”, Class. Quantum Grav., 24, S15–S24
(2007). [DOI], [gr-qc/0612001].
|
| * | 392 | Hannam, M. D., Husa, S., Pollney, D., Brügmann, B. and Ó Murchadha, N., “Geometry and
Regularity of Moving Punctures”, Phys. Rev. Lett., 99, 241102 (2007). [DOI], [gr-qc/0606099].
|
| * | 393 | Hansen, J., Khokhlov, A. and Novikov, I., “Physics of the interior of a spherical, charged black
hole with a scalar field”, Phys. Rev. D, 71, 064013 (2005). [DOI], [arXiv:gr-qc/0501015 [gr-qc]].
|
| * | 394 | Harmark, T., “Stationary and axisymmetric solutions of higher-dimensional general relativity”,
Phys. Rev. D, 70, 124002 (2004). [DOI], [arXiv:hep-th/0408141 [hep-th]].
|
| * | 395 | Hartnett, G. S. and Santos, J. E., “Non-Axisymmetric Instability of Rotating Black Holes in
Higher Dimensions”, Phys. Rev. D, 88, 041505 (2013). [DOI], [arXiv:1306.4318 [gr-qc]].
|
| * | 396 | Hartnoll, S. A., “Lectures on holographic methods for condensed matter physics”, Class.
Quantum Grav., 26, 224002 (2009). [DOI], [arXiv:0903.3246 [hep-th]].
|
| * | 397 | Hartnoll, S. A., “Horizons, holography and condensed matter”, arXiv, e-print, (2011).
[arXiv:1106.4324 [hep-th]].
|
| * | 398 | Hartnoll, S. A., Herzog, C. P. and Horowitz, G. T., “Holographic Superconductors”, J. High
Energy Phys., 2008(12), 015 (2008). [DOI], [arXiv:0810.1563 [hep-th]].
|
| * | 399 | Hartung, J., Steinhoff, J. and Schäfer, G., “Next-to-next-to-leading order post-Newtonian
linear-in-spin binary Hamiltonians”, Ann. Phys. (Berlin), 525, 359–394 (2013). [DOI],
[arXiv:1302.6723 [gr-qc]].
|
| * | 400 | Haugan, M. P., Shapiro, S. L. and Wasserman, I., “The suppression of gravitational radiation
from finite size stars falling into black holes”, Astrophys. J., 257, 283–290 (1982). [DOI].
|
| * | 401 | Hawking, S. W., “Singularities in the universe”, Phys. Rev. Lett., 17, 444–445 (1966). [DOI].
|
| * | 402 | Hawking, S. W., “The occurrence of singularities in cosmology. III. Causality and singularities”,
Proc. R. Soc. London, Ser. A, 300, 187–201 (1967). [DOI], [ADS].
|
| * | 403 | Hawking, S. W., “Black holes in general relativity”, Commun. Math. Phys., 25, 152–166 (1972).
[DOI].
|
| * | 404 | Hawking, S. W., “Black holes in the Brans-Dicke theory of gravitation”, Commun. Math.
Phys., 25, 167–171 (1972). [DOI].
|
| * | 405 | Hawking, S. W., “Particle Creation by Black Holes”, Commun. Math. Phys., 43, 199–220
(1975). [DOI].
|
| * | 406 | Hawking, S. W. and Ellis, G. F. R., The Large Scale Structure of Space-Time, Cambridge
Monographs on Mathematical Physics, (Cambridge University Press, Cambridge, 1973). [Google
Books].
|
| * | 407 | Hawking, S. W., Hunter, C. J. and Taylor-Robinson, M. M., “Rotation and the AdS/CFT
correspondence”, Phys. Rev. D, 59, 064005 (1999). [DOI], [arXiv:hep-th/9811056 [hep-th]].
|
| * | 408 | Hawking, S. W. and Penrose, R., “The Singularities of Gravitational Collapse and Cosmology”,
Proc. R. Soc. London, Ser. A, 314, 529–548 (1970). [DOI], [ADS].
|
| * | 409 | Headrick, M. and Wiseman, T., “Numerical Ricci-flat metrics on K3”, Class. Quantum Grav.,
22, 4931–4960 (2005). [DOI], [arXiv:hep-th/0506129 [hep-th]].
|
| * | 410 | Healy, J., Bode, T., Haas, R., Pazos, E., Laguna, P., Shoemaker, D. M. and Yunes, N., “Late
inspiral and merger of binary black holes in scalar-tensor theories of gravity”, Class. Quantum
Grav., 29, 232002 (2012). [DOI], [ADS], [arXiv:1112.3928 [gr-qc]].
|
| * | 411 | Healy, J. and Laguna, P., “Critical Collapse of Scalar Fields Beyond Axisymmetry”, Gen.
Relativ. Gravit., 46, 1722 (2014). [DOI], [arXiv:1310.1955 [gr-qc]].
|
| * | 412 | Healy, J., Laguna, P., Matzner, R. A. and Shoemaker, D. M., “Final Mass and Spin of
Merged Black Holes and the Golden Black Hole”, Phys. Rev. D, 81, 081501 (2010). [DOI],
[arXiv:0905.3914 [gr-qc]].
|
| * | 413 | Healy, J., Levin, J. and Shoemaker, D., “Zoom-Whirl Orbits in Black Hole Binaries”, Phys.
Rev. Lett., 103, 131101 (2009). [DOI], [arXiv:0907.0671 [gr-qc]].
|
| * | 414 | Heinz, U. W., “Thermalization at RHIC”, AIP Conf. Proc., 739, 163–180 (2005). [DOI],
[arXiv:nucl-th/0407067 [nucl-th]].
|
| * | 415 | Heller, M. P., Janik, R. A. and Witaszczyk, P., “The characteristics of thermalization
of boost-invariant plasma from holography”, Phys. Rev. Lett., 108, 201602 (2012). [DOI],
[arXiv:1103.3452 [hep-th]].
|
| * | 416 | Heller, M. P., Janik, R. A. and Witaszczyk, P., “A numerical relativity approach to the initial
value problem in asymptotically Anti-de Sitter spacetime for plasma thermalization: An ADM
formulation”, Phys. Rev. D, 85, 126002 (2012). [DOI], [arXiv:1203.0755 [hep-th]].
|
| * | 417 | Heller, M. P., Mateos, D., van der Schee, W. and Trancanelli, D., “Strong Coupling
Isotropization of Non-Abelian Plasmas Simplified”, Phys. Rev. Lett., 108, 191601 (2012). [DOI],
[arXiv:1202.0981 [hep-th]].
|
| * | 418 | Hemberger, D. A., Scheel, M. A., Kidder, L. E., Szilagyi, B., Lovelace, G., Taylor, N. W. and
Teukolsky, S. A., “Dynamical Excision Boundaries in Spectral Evolutions of Binary Black Hole
Spacetimes”, Class. Quantum Grav., 30, 115001 (2013). [DOI], [arXiv:1211.6079 [gr-qc]].
|
| * | 419 | Herdeiro, C. A. R. and Radu, E., “Ergo-spheres, ergo-tori and ergo-Saturns for Kerr black holes with
scalar hair”, Phys. Rev. D, 89, 124018 (2014). [DOI], [arXiv:1406.1225 [gr-qc]].
|
| * | 420 | Herdeiro, C. A. R., Sampaio, M. O. P. and Rebelo, C., “Radiation from a D-dimensional collision of
shock waves: First order perturbation theory”, J. High Energy Phys., 2011(07), 121 (2011).
[DOI], [arXiv:1105.2298 [hep-th]].
|
| * | 421 | Herdeiro, C. A. R., Degollado, J. C. and Rúnarsson, H. F., “Rapid growth of superradiant
instabilities for charged black holes in a cavity”, Phys. Rev. D, 88, 063003 (2013). [DOI],
[arXiv:1305.5513 [gr-qc]].
|
| * | 422 | Herdeiro, C. A. R. and Radu, E., “Kerr black holes with scalar hair”, Phys. Rev. Lett., 112,
221101 (2014). [DOI], [arXiv:1403.2757 [gr-qc]].
|
| * | 423 | Herdeiro, C. A. R. and Radu, E., “A new spin on black hole hair”, Int. J. Mod. Phys. D, 23,
1442014 (2014). [DOI], [ADS], [arXiv:1405.3696 [gr-qc]].
|
| * | 424 | Herdeiro, C. A. R. and Rebelo, C., “On the interaction between two Kerr black holes”, J. High
Energy Phys., 2008(10), 017 (2008). [DOI], [arXiv:0808.3941 [gr-qc]].
|
| * | 425 | Herdeiro, C. A. R., Rebelo, C., Zilhão, M. and Costa, M. S., “A Double Myers-Perry Black
Hole in Five Dimensions”, J. High Energy Phys., 2008(07), 009 (2008). [DOI], [arXiv:0805.1206
[hep-th]].
|
| * | 426 | Hern, S. D., “Numerical Relativity and Inhomogeneous Cosmologies”, arXiv, e-print, (1999).
[ADS], [arXiv:gr-qc/0004036].
|
| * | 427 | Hilditch, D., “An Introduction to Well-posedness and Free-evolution”, Int. J. Mod. Phys. A,
28, 1340015 (2013). [DOI], [arXiv:1309.2012 [gr-qc]].
|
| * | 428 | Hilditch, D., Bernuzzi, S., Thierfelder, M., Cao, Z., Tichy, W. et al., “Compact binary
evolutions with the Z4c formulation”, Phys. Rev. D, 88, 084057 (2013). [DOI], [arXiv:1212.2901
[gr-qc]].
|
| * | 429 | Hinder, I. et al. (NRAR collaboration), “Error-analysis and comparison to analytical models
of numerical waveforms produced by the NRAR Collaboration”, Class. Quantum Grav., 31,
025012 (2014). [DOI], [arXiv:1307.5307 [gr-qc]].
|
| * | 430 | Hod, S., “Stability of the extremal Reissner-Nordström black hole to charged scalar
perturbations”, Phys. Lett. B, 713, 505–508 (2012). [DOI], [arXiv:1304.6474 [gr-qc]].
|
| * | 431 | Hod, S., “Analytic treatment of the charged black-hole-mirror bomb in the highly explosive
regime”, Phys. Rev. D, 88, 064055 (2013). [DOI], [arXiv:1310.6101 [gr-qc]].
|
| * | 432 | Hod, S., “No-bomb theorem for charged Reissner–Nordström black holes”, Phys. Lett. B, 718,
1489–1492 (2013). [DOI].
|
| * | 433 | Hořava, P., “Quantum Gravity at a Lifshitz Point”, Phys. Rev. D, 79, 084008 (2009). [DOI],
[arXiv:0901.3775 [hep-th]].
|
| * | 434 | Horbatsch, M. W. and Burgess, C. P., “Cosmic Black-Hole Hair Growth and Quasar OJ287”,
J. Cosmol. Astropart. Phys., 2012(05), 010 (2012). [DOI], [arXiv:1111.4009 [gr-qc]].
|
| * | 435 | Horndeski, G. W., “Second-order scalar-tensor field equations in a four-dimensional space”,
Int. J. Theor. Phys., 10, 363–384 (1974). [DOI].
|
| * | 436 | Horowitz, G. T., “Introduction to Holographic Superconductors”, in Papantonopoulos, E., ed.,
From Gravity to Thermal Gauge Theories: The AdS/CFT Correspondence, Fifth Aegean School
on the AdS/CFT correspondence, held in Adamas on Milos Island, Greece, 21 – 26 September
2009, Lecture Notes in Physics, 828, pp. 313–347, (Springer, Berlin; New York, 2011). [DOI],
[arXiv:1002.1722 [hep-th]].
|
| * | 437 | Horowitz, G. T., “Surprising Connections Between General Relativity and Condensed Matter”,
Class. Quantum Grav., 28, 114008 (2011). [DOI], [arXiv:1010.2784 [gr-qc]].
|
| * | 438 | Horowitz, G. T., ed., Black Holes in Higher Dimensions, (Cambridge University Press,
Cambridge; New York, 2012). [ADS], [Google Books].
|
| * | 439 | Horowitz, G. T. and Hubeny, V. E., “Quasinormal modes of AdS black holes and the approach
to thermal equilibrium”, Phys. Rev. D, 62, 024027 (2000). [DOI], [arXiv:hep-th/9909056].
|
| * | 440 | Horowitz, G. T. and Maeda, K., “Fate of the black string instability”, Phys. Rev. Lett., 87,
131301 (2001). [DOI], [arXiv:hep-th/0105111 [hep-th]].
|
| * | 441 | Horowitz, G. T. and Strominger, A., “Black strings and P-branes”, Nucl. Phys. B, 360,
197–209 (1991). [DOI].
|
| * | 442 | Horowitz, G. T. and Wiseman, T., “General black holes in Kaluza–Klein theory”, arXiv,
e-print, (2011). [ADS], [arXiv:1107.5563 [gr-qc]].
|
| * | 443 | “How many stars are there in the Universe?”, project homepage, ESA. URL (accessed 2 April
2014): http://www.esa.int/Our_Activities/Space_Science/Herschel/How_many_stars_are_there_in_the_Universe.
|
| * | 444 | Hubner, P., “A Method for calculating the structure of (singular) space-times in the large”,
Phys. Rev. D, 53, 701–721 (1996). [DOI], [arXiv:gr-qc/9409029].
|
| * | 445 | Hughes, S. A., “Evolution of circular, nonequatorial orbits of Kerr black holes due to
gravitational-wave emission”, Phys. Rev. D, 61, 084004 (2000). [DOI], [arXiv:gr-qc/9910091
[gr-qc]].
|
| * | 446 | Hughes, S. A., “Evolution of circular, nonequatorial orbits of Kerr black holes due to
gravitational wave emission. 2. Inspiral trajectories and gravitational wave forms”, Phys. Rev.
D, 64, 064004 (2001). [DOI], [arXiv:gr-qc/0104041 [gr-qc]].
|
| * | 447 | Hulse, R. A. and Taylor, J. H., “Discovery of a pulsar in a binary system”, Astrophys. J., 195,
L51–L53 (1975). [DOI].
|
| * | 448 | Hwang, D.-I. and Yeom, D.-H., “Internal structure of charged black holes”, Phys. Rev. D, 84,
064020 (2011). [DOI], [arXiv:1010.2585 [gr-qc]].
|
| * | 449 | Ida, D. and Nakao, K.-I., “Isoperimetric inequality for higher dimensional black holes”, Phys.
Rev. D, 66, 064026 (2002). [DOI], [arXiv:gr-qc/0204082 [gr-qc]].
|
| * | 450 | Isaacson, R. A., “Gravitational Radiation in the Limit of High Frequency. I. The Linear
Approximation and Geometrical Optics”, Phys. Rev., 166, 1263–1271 (1967). [DOI].
|
| * | 451 | Isaacson, R. A., “Gravitational Radiation in the Limit of High Frequency. II. Nonlinear Terms
and the Effective Stress Tensor”, Phys. Rev., 166, 1272–1279 (1968). [DOI].
|
| * | 452 | Ishibashi, A. and Kodama, H., “Stability of higher-dimensional Schwarzschild black holes”,
Prog. Theor. Phys., 110, 901–919 (2003). [DOI], [arXiv:hep-th/0305185].
|
| * | 453 | Israel, W., “Event horizons in static vacuum space-times”, Phys. Rev., 164, 1776–1779 (1967).
[DOI].
|
| * | 454 | Iyer, B. R., “Gravitational waves from binary black holes”, Pramana, 77, 119–133 (2011).
[DOI], [ADS].
|
| * | 455 | Jackson, J. D., Classical Electrodynamics, (Wiley, New York, 1975), 2nd edition. [ADS].
|
| * | 456 | Jacobson, T., “Einstein-æther gravity: A Status report”, in From Quantum to Emergent
Gravity: Theory and Phenomenology, June 11 – 15 2007, Trieste, Italy, Proceedings of Science,
PoS(QG-Ph)020, (SISSA, Trieste, 2007). [arXiv:0801.1547 [gr-qc]]. URL (accessed 2 April 2014):
http://pos.sissa.it/cgi-bin/reader/conf.cgi?confid=43.
|
| * | 457 | Jaranowski, P. and Schafer, G., “Towards the 4th post-Newtonian Hamiltonian for
two-point-mass systems”, Phys. Rev. D, 86, 061503 (2012). [DOI], [arXiv:1207.5448 [gr-qc]].
|
| * | 458 | Jetzer, P., “Boson stars”, Phys. Rep., 220, 163–227 (1992). [DOI].
|
| * | 459 | Johnston, M., Ruffini, R. and Zerilli, F., “Gravitationally induced electromagnetic radiation”,
Phys. Rev. Lett., 31, 1317–1319 (1973). [DOI].
|
| * | 460 | Johnston, M., Ruffini, R. and Zerilli, F., “Electromagnetically induced gravitational radiation”,
Phys. Lett. B, 49, 185–188 (1974). [DOI].
|
| * | 461 | Joshi, P. S. and Malafarina, D., “Recent developments in gravitational collapse and spacetime
singularities”, Int. J. Mod. Phys. D, 20, 2641–2729 (2011). [DOI], [arXiv:1201.3660 [gr-qc]].
|
| * | 462 | “KAGRA: Large-scale Cryogenic Gravitational Wave Telescope Project”, project homepage,
University of Tokyo. URL (accessed 2 April 2014): http://gwcenter.icrr.u-tokyo.ac.jp/en/.
|
| * | 463 | Kaluza, T., “On the Problem of Unity in Physics”, Sitzungsber. Preuss. Akad. Wiss. Berlin (Math. Phys.), 1921, 966–972 (1921). |
| * | 464 | Kapadia, S. J., Kennefick, D. and Glampedakis, K., “Do floating orbits in extreme mass ratio
binary black holes exist?”, Phys. Rev. D, 87, 044050 (2013). [DOI], [ADS], [arXiv:1302.1016
[gr-qc]].
|
| * | 465 | Kastaun, W., Galeazzi, F., Alic, D., Rezzolla, L. and Font, J. A., “Black hole from merging
binary neutron stars: How fast can it spin?”, Phys. Rev. D, 88, 021501 (2013). [DOI],
[arXiv:1301.7348 [gr-qc]].
|
| * | 466 | Kerr, R. P., “Gravitational field of a spinning mass as an example of algebraically special
metrics”, Phys. Rev. Lett., 11, 237–238 (1963). [DOI].
|
| * | 467 | Kerr, R. P. and Schild, A., “Some algebraically degenerate solutions of Einstein’s gravitational field equations”, in Applications of nonlinear partial differential equations in mathematical physics, Proceedings of the 17th Symposium in Applied Mathematics, 1964, New York, Proceedings of Symposia in Applied Mathematics, 17, pp. 199–209, (American Mathematical Society, Providence, 1965). |
| * | 468 | Kidder, L. E., Scheel, M. A. and Teukolsky, S. A., “Extending the lifetime of 3D black hole
computations with a new hyperbolic system of evolution equations”, Phys. Rev. D, 64, 064017
(2001). [DOI], [gr-qc/0105031].
|
| * | 469 | Kinnersley, W., “Type D Vacuum Metrics”, J. Math. Phys., 10, 1195–1203 (1969). [DOI].
|
| * | 470 | Kleihaus, B., Kunz, J. and Radu, E., “New nonuniform black string solutions”, J. High Energy
Phys., 2006(06), 016 (2006). [DOI], [arXiv:hep-th/0603119 [hep-th]].
|
| * | 471 | Kleihaus, B., Kunz, J. and Radu, E., “Rotating Black Holes in Dilatonic Einstein-Gauss-Bonnet
Theory”, Phys. Rev. Lett., 106, 151104 (2011). [DOI], [arXiv:1101.2868 [gr-qc]].
|
| * | 472 | Kleihaus, B., Kunz, J. and Radu, E., “Black rings in six dimensions”, Phys. Lett. B, 718,
1073–1077 (2013). [DOI], [arXiv:1205.5437 [hep-th]].
|
| * | 473 | Kleihaus, B., Kunz, J. and Radu, E., “d ≥ 5 magnetized static, balanced black holes with
S2 ×Sd−4 event horizon topology”, Phys. Lett. B, 723, 182–189 (2013). [DOI], [arXiv:1303.2190
[gr-qc]].
|
| * | 474 | Kleihaus, B., Kunz, J., Radu, E. and Rodriguez, M. J., “New generalized nonspherical black
hole solutions”, J. High Energy Phys., 2011(02), 058 (2011). [DOI], [arXiv:1010.2898 [gr-qc]].
|
| * | 475 | Kleihaus, B., Kunz, J., Radu, E. and Subagyo, B., “Spinning black strings in five dimensional
Einstein–Gauss-Bonnet gravity”, Phys. Lett. B, 713, 110–116 (2012). [DOI], [arXiv:1205.1656
[gr-qc]].
|
| * | 476 | Klein, O., “Quantum Theory and Five-Dimensional Theory of Relativity. (In German and
English)”, Z. Phys., 37, 895–906 (1926). [DOI].
|
| * | 477 | Kobayashi, T., Motohashi, H. and Suyama, T., “Black hole perturbation in the most general
scalar-tensor theory with second-order field equations I: the odd-parity sector”, Phys. Rev. D,
85, 084025 (2012). [DOI], [arXiv:1202.4893 [gr-qc]].
|
| * | 478 | Kobayashi, T., Motohashi, H. and Suyama, T., “Black hole perturbation in the most general
scalar-tensor theory with second-order field equations II: the even-parity sector”, Phys. Rev.
D, 89, 084042 (2014). [DOI], [arXiv:1402.6740 [gr-qc]].
|
| * | 479 | Kodama, H. and Ishibashi, A., “A master equation for gravitational perturbations of maximally
symmetric black holes in higher dimensions”, Prog. Theor. Phys., 110, 701–722 (2003). [DOI],
[arXiv:hep-th/0305147].
|
| * | 480 | Kodama, H. and Ishibashi, A., “Master equations for perturbations of generalized static
black holes with charge in higher dimensions”, Prog. Theor. Phys., 111, 29–73 (2004). [DOI],
[arXiv:hep-th/0308128].
|
| * | 481 | Kodama, H., Konoplya, R. A. and Zhidenko, A., “Gravitational stability of simply rotating
Myers-Perry black holes: Tensorial perturbations”, Phys. Rev. D, 81, 044007 (2010). [DOI],
[arXiv:0904.2154 [gr-qc]].
|
| * | 482 | Kojima, Y., “Equations governing the nonradial oscillations of a slowly rotating relativistic
star”, Phys. Rev. D, 46, 4289–4303 (1992). [DOI].
|
| * | 483 | Kojima, Y. and Nakamura, T., “Gravitational radiation by a particle with nonzero orbital
angular momentum falling into a Kerr black hole”, Phys. Lett. A, 99, 37–40 (1983). [DOI].
|
| * | 484 | Kojima, Y. and Nakamura, T., “Gravitational radiation from a particle with zero orbital
angular momentum plunging into a Kerr black hole”, Phys. Lett. A, 96, 335–338 (1983). [DOI].
|
| * | 485 | Kojima, Y. and Nakamura, T., “Gravitational radiation from a particle scattered by a Kerr
black hole”, Prog. Theor. Phys., 72, 494–504 (1984). [DOI].
|
| * | 486 | Kojima, Y. and Nakamura, T., “Gravitational radiation from a particle with orbital angular
momentum plunging into a Kerr black hole”, Prog. Theor. Phys., 71, 79–90 (1984). [DOI].
|
| * | 487 | Kokkotas, K. D. and Schmidt, B. G., “Quasi-Normal Modes of Stars and Black Holes”, Living
Rev. Relativity, 2, lrr-1999-2 (1999). [DOI], [ADS], [arXiv:gr-qc/9909058]. URL (accessed 2 April
2014): http://www.livingreviews.org/lrr-1999-2. |
| * | 488 | Kol, B. and Smolkin, M., “Black hole stereotyping: Induced gravito-static polarization”, J.
High Energy Phys., 2012(02), 010 (2012). [DOI], [arXiv:1110.3764 [hep-th]].
|
| * | 489 | Kovacs, S. J. and Thorne, K. S., “The Generation of Gravitational Waves. 3. Derivation of
Bremsstrahlung Formulas”, Astrophys. J., 217, 252–280 (1977). [DOI].
|
| * | 490 | Kovtun, P., Son, D. T. and Starinets, A. O., “Viscosity in strongly interacting quantum
field theories from black hole physics”, Phys. Rev. Lett., 94, 111601 (2005). [DOI],
[arXiv:hep-th/0405231].
|
| * | 491 | Koyama, H. and Tomimatsu, A., “Asymptotic tails of massive scalar fields in Schwarzschild
background”, Phys. Rev. D, 64, 044014 (2001). [DOI], [arXiv:gr-qc/0103086 [gr-qc]].
|
| * | 492 | Kreiss, H.-O. and Winicour, J., “Problems which are well-posed in a generalized sense with
applications to the Einstein equations”, Class. Quantum Grav., 23, S405–S420 (2006). [DOI],
[arXiv:gr-qc/0602051 [gr-qc]].
|
| * | 493 | Krivan, W. and Price, R. H., “Initial data for superposed rotating black holes”, Phys. Rev. D,
58, 104003 (1998). [DOI].
|
| * | 494 | Krivan, W. and Price, R. H., “Formation of a rotating hole from a close limit headon collision”,
Phys. Rev. Lett., 82, 1358–1361 (1999). [DOI], [arXiv:gr-qc/9810080 [gr-qc]].
|
| * | 495 | Kudoh, H., “Origin of black string instability”, Phys. Rev. D, 73, 104034 (2006). [DOI],
[arXiv:hep-th/0602001 [hep-th]].
|
| * | 496 | Kunduri, H. K., Lucietti, J. and Reall, H. S., “Gravitational perturbations of higher
dimensional rotating black holes: Tensor perturbations”, Phys. Rev. D, 74, 084021 (2006).
[DOI], [arXiv:hep-th/0606076 [hep-th]].
|
| * | 497 | Laguna, P. and Shoemaker, D., “Numerical stability of a new conformal-traceless 3+1
formulation of the Einstein equation”, Class. Quantum Grav., 19, 3679–3686 (2002). [DOI].
|
| * | 498 | Landau, L. D., “On the Theory of Stars”, Phys. Z. Sowjetunion, 1, 285–288 (1932). |
| * | 499 | Landau, L. D., “Origin of Stellar Energy”, Nature, 141, 333–334 (1938). [DOI], [ADS].
|
| * | 500 | Landau, L. D. and Lifshitz, E. M., The Classical Theory of Fields, Course of Theoretical
Physics, 2, (Pergamon Press, Oxford; New York, 1975), 4th edition. [ADS], [Google Books].
|
| * | 501 | Lattimer, J. M. and Prakash, M., “Neutron Star Observations: Prognosis for Equation of State
Constraints”, Phys. Rep., 442, 109–165 (2007). [DOI], [arXiv:astro-ph/0612440 [astro-ph]].
|
| * | 502 | Le Tiec, A., “The Overlap of Numerical Relativity, Perturbation Theory and Post-Newtonian
Theory in the Binary Black Hole Problem”, Int. J. Mod. Phys. D, 23, 1430022 (2014). [DOI],
[arXiv:1408.5505 [gr-qc]].
|
| * | 503 | Le Tiec, A. and Blanchet, L., “The Close-limit Approximation for Black Hole Binaries
with Post-Newtonian Initial Conditions”, Class. Quantum Grav., 27, 045008 (2010). [DOI],
[arXiv:0910.4593 [gr-qc]].
|
| * | 504 | Leaver, E. W., “An Analytic representation for the quasi normal modes of Kerr black holes”,
Proc. R. Soc. London, Ser. A, 402, 285–298 (1985). [DOI].
|
| * | 505 | Leaver, E. W., “Solutions to a generalized spheroidal wave equation: Teukolsky’s equations
in general relativity, and the two-center problem in molecular quantum mechanics”, J. Math.
Phys., 27, 1238 (1986). [DOI].
|
| * | 506 | Leaver, E. W., “Spectral decomposition of the perturbation response of the Schwarzschild
geometry”, Phys. Rev. D, 34, 384–408 (1986). [DOI].
|
| * | 507 | Lee, K. J., Wex, N., Kramer, M., Stappers, B. W., Bassa, C. G., Janssen, G. H.,
Karuppusamy, R. and Smits, R., “Gravitational wave astronomy of single sources with a pulsar
timing array”, Mon. Not. R. Astron. Soc., 414, 3251–3264 (2011). [DOI], [ADS], [arXiv:1103.0115
[astro-ph.HE]].
|
| * | 508 | Lehner, L., Gravitational Radiation from Black Hole Spacetimes, Ph.D. thesis, (University of
Pittsburgh, Pittsburgh, 1998). [ADS].
|
| * | 509 | Lehner, L., “Numerical Relatvity: A review”, Class. Quantum Grav., 18, R25–R86 (2001).
[DOI], [gr-qc/0106072].
|
| * | 510 | Lehner, L. and Moreschi, O. M., “Dealing with delicate issues in waveform calculations”, Phys.
Rev. D, 76, 124040 (2007). [DOI], [arXiv:0706.1319 [gr-qc]].
|
| * | 511 | Lehner, L. and Pretorius, F., “Black Strings, Low Viscosity Fluids, and Violation of Cosmic
Censorship”, Phys. Rev. Lett., 105, 101102 (2010). [DOI], [arXiv:1006.5960 [hep-th]].
|
| * | 512 | Lehner, L. and Pretorius, F., “Final state of Gregory–Laflamme instability”, in Horowitz,
G. T., ed., Black Holes in Higher Dimensions, pp. 44–68, (Cambridge University Press,
Cambridge; New York, 2012). [arXiv:1106.5184 [gr-qc]].
|
| * | 513 | Lemos, M., Approximation Methods in the Study of Gravitational-Wave Generation: From the
Quadrupole to the ZFL, Master’s thesis, (Universidade Técnica de Lisboa / Instituto Superior
Técnico, Lisbon, 2010). Online version (accessed 2 April 2014): http://blackholes.ist.utl.pt/fp-content/attachs/thesismadalenalemos.pdf.
|
| * | 514 | Li, C. and Lucietti, J., “Three-dimensional black holes and descendants”, Phys. Lett. B, 738,
48–54 (2014). [DOI], [ADS], [arXiv:1312.2626 [hep-th]].
|
| * | 515 | Lichnerowicz, A., “L’integration des équations de la gravitation relativiste et le problème des n corps”, J. Math. Pures Appl., 23, 37–63 (1944). |
| * | 516 | Liebling, S. L. and Palenzuela, C., “Dynamical Boson Stars”, Living Rev. Relativity, 15,
lrr-2012-6 (2012). [DOI], [ADS], [arXiv:1202.5809 [gr-qc]]. URL (accessed 2 April 2014): http://www.livingreviews.org/lrr-2012-6. |
| * | 517 | “LIGO Scientific Collaboration”, project homepage, LIGO Scientific Collaboration. URL
(accessed 2 April 2014): http://www.ligo.org/.
|
| * | 518 | Lindblom, L. and Detweiler, S. L., “The quadrupole oscillations of neutron stars”, Astrophys.
J., 53, 73 (1983). [DOI].
|
| * | 519 | Lindblom, L., Scheel, M. A., Kidder, L. E., Owen, R. and Rinne, O., “A New Generalized
Harmonic Evolution System”, Class. Quantum Grav., 23, S447–S462 (2006). [DOI],
[gr-qc/0512093].
|
| * | 520 | Lindquist, R. W. and Wheeler, J. A., “Dynamics of a Lattice Universe by the
Schwarzschild-Cell Method”, Rev. Mod. Phys., 29, 432–443 (1957). [DOI].
|
| * | 521 | Löffler, F., Faber, J., Bentivegna, E., Bode, T., Diener, P. et al., “The Einstein Toolkit:
A Community Computational Infrastructure for Relativistic Astrophysics”, Class. Quantum
Grav., 29, 115001 (2012). [DOI], [arXiv:1111.3344 [gr-qc]].
|
| * | 522 | Lorentz, H. A. and Droste, J., “The motion of a system of bodies under the influence of their
mutual attraction, according to Einstein’s theory”, in The Collected Papers of H.A. Lorentz,
Vol. 5, pp. 330–355, (Nijhoff, The Hague, 1937). [DOI].
|
| * | 523 | Lousto, C. O., Nakano, H., Zlochower, Y. and Campanelli, M., “Intermediate-mass-ratio black
hole binaries: intertwining numerical and perturbative techniques”, Phys. Rev. D, 82, 104057
(2010). [DOI], [arXiv:1008.4360 [gr-qc]].
|
| * | 524 | Lousto, C. O. and Price, R. H., “Head-on collisions of black holes: The particle limit”, Phys.
Rev. D, 55, 2124–2138 (1997). [DOI], [arXiv:gr-qc/9609012].
|
| * | 525 | Lousto, C. O. and Zlochower, Y., “Orbital Evolution of Extreme-Mass-Ratio Black-Hole
Binaries with Numerical Relativity”, Phys. Rev. Lett., 106, 041101 (2011). [DOI],
[arXiv:1009.0292 [gr-qc]].
|
| * | 526 | Lovelace, G., Boyle, M., Scheel, M. A. and Szilágyi, B., “High-accuracy gravitational wave
forms for binary black hole mergers with nearly extremal spins”, Class. Quantum Grav., 29,
045003 (2012). [DOI], [arXiv:1110.2229 [gr-qc]].
|
| * | 527 | Lovelace, G., Owen, R., Pfeiffer, H. and Chu, T., “Binary-black hole initial data with nearly
extremal spins”, Phys. Rev. D, 78, 084017 (2008). [DOI], [arXiv:0805.4192 [gr-qc]].
|
| * | 528 | Lovelace, G., Scheel, M. A. and Szilagyi, B., “Simulating merging binary black holes with
nearly extremal spins”, Phys. Rev. D, 83, 024010 (2011). [DOI], [arXiv:1010.2777 [gr-qc]].
|
| * | 529 | Lovelace, G. et al., “Momentum flow in black-hole binaries. II. Numerical simulations of
equal-mass, head-on mergers with antiparallel spins”, Phys. Rev. D, 82, 064031 (2010). [DOI],
[arXiv:0907.0869 [gr-qc]].
|
| * | 530 | Lucietti, J. and Reall, H. S., “Gravitational instability of an extreme Kerr black hole”, Phys.
Rev. D, 86, 104030 (2012). [DOI], [arXiv:1208.1437 [gr-qc]].
|
| * | 531 | Luk, J., “Weak null singularities in general relativity”, arXiv, e-print, (2013). [ADS],
[arXiv:1311.4970 [gr-qc]].
|
| * | 532 | Maartens, R. and Koyama, K., “Brane-World Gravity”, Living Rev. Relativity, 13, lrr-2010-5
(2010). [DOI], [ADS]. URL (accessed 2 April 2014): http://www.livingreviews.org/lrr-2010-5. |
| * | 533 | Macedo, C. F. B., Pani, P., Cardoso, V. and Crispino, L. C. B., “Into the lair:
gravitational-wave signatures of dark matter”, Astrophys. J., 774, 48 (2013). [DOI],
[arXiv:1302.2646].
|
| * | 534 | MacNeice, P., Olson, K., Mobarry, C., de Fainchtein, R. and Packer, C., “PARAMESH: A
parallel adaptive mesh refinement community toolkit”, Comput. Phys. Commun., 136, 330–354
(2000). [DOI].
|
| * | 535 | Maeda, K., Sasaki, M., Nakamura, T. and Miyama, S., “A New Formalism of the Einstein
Equations for Relativistic Rotating Systems”, Prog. Theor. Phys., 63, 719–721 (1980). [DOI].
|
| * | 536 | Maldacena, J. M., “The large N limit of superconformal field theories and supergravity”, Adv.
Theor. Math. Phys., 2, 231–252 (1998). [arXiv:hep-th/9711200].
|
| * | 537 | Maliborski, M., “Instability of Flat Space Enclosed in a Cavity”, Phys. Rev. Lett., 109, 221101
(2012). [DOI], [arXiv:1208.2934 [gr-qc]].
|
| * | 538 | Maliborski, M. and Rostworowski, A., “Time-periodic solutions in Einstein AdS - massless
scalar field system”, Phys. Rev. Lett., 111, 051102 (2013). [DOI], [arXiv:1303.3186 [gr-qc]].
|
| * | 539 | Maliborski, M. and Rostworowski, A., “What drives AdS spacetime unstable?”, Phys. Rev. D,
89, 124006 (2014). [DOI], [ADS], [arXiv:1403.5434 [gr-qc]].
|
| * | 540 | Marronetti, P., Tichy, W., Brügmann, B., González, J. A. and Sperhake, U., “High-spinning
binary black hole mergers”, Phys. Rev. D, 77, 064010 (2008). [DOI], [arXiv:0709.2160 [gr-qc]].
|
| * | 541 | Mathews, J., “Gravitational multipole radiation”, J. Soc. Ind. Appl. Math., 10, 768 (1962).
[DOI].
|
| * | 542 | Matzner, R. A., Seidel, H. E., Shapiro, S. L., Smarr, L., Suen, W.-M., Teukolsky, S. A. and
Winicour, J., “Geometry of a Black Hole Collision”, Science, 270, 941–947 (1995). [DOI].
|
| * | 543 | May, M. M. and White, R. H., “Hydrodynamic Calculations of General-Relativistic Collapse”,
Phys. Rev., 141, 1232–1241 (1966). [DOI].
|
| * | 544 | May, M. M. and White, R. H., “Hydrodynamic Calculations of General-Relativistic Collapse”,
Phys. Rev., 141, 1232–1241 (1966). [DOI], [ADS].
|
| * | 545 | May, M. M. and White, R. H., “Stellar Dynamics and Gravitational Collapse”, Methods Comput. Phys., 7, 219–258 (1967). |
| * | 546 | Mayo, A. E. and Bekenstein, J. D., “No hair for spherical black holes: Charged and
nonminimally coupled scalar field with selfinteraction”, Phys. Rev. D, 54, 5059–5069 (1996).
[DOI], [arXiv:gr-qc/9602057 [gr-qc]].
|
| * | 547 | McClintock, J. E. and Remillard, R. A., “The black hole binary A0620-00”, Astrophys. J.,
308, 110 (1986). [DOI].
|
| * | 548 | Mino, Y., “Perturbative approach to an orbital evolution around a supermassive black hole”,
Phys. Rev. D, 67, 084027 (2003). [DOI], [arXiv:gr-qc/0302075 [gr-qc]].
|
| * | 549 | Mirshekari, S. and Will, C. M., “Compact binary systems in scalar-tensor gravity: Equations of
motion to 2.5 post-Newtonian order”, Phys. Rev. D, 87, 084070 (2013). [DOI], [arXiv:1301.4680
[gr-qc]].
|
| * | 550 | Misner, C. W., “Wormhole initial conditions”, Phys. Rev., 118, 1110 (1960). [DOI].
|
| * | 551 | Misner, C. W., Breuer, R. A., Brill, D. R., Chrzanowski, P. L., Hughes, H. G. et al.,
“Gravitational synchrotron radiation in the schwarzschild geometry”, Phys. Rev. Lett., 28,
998–1001 (1972). [DOI].
|
| * | 552 | Misner, C. W. and Sharp, D. H., “Relativistic equations for adiabatic, spherically symmetric
gravitational collapse”, Phys. Rev., 136, B571–B576 (1964). [DOI].
|
| * | 553 | Misner, C. W., Thorne, K. S. and Wheeler, J. A., Gravitation, (W. H. Freeman, San Francisco,
1973). [ADS].
|
| * | 554 | Molina, C., Pani, P., Cardoso, V. and Gualtieri, L., “Gravitational signature of Schwarzschild
black holes in dynamical Chern-Simons gravity”, Phys. Rev. D, 81, 124021 (2010). [DOI],
[arXiv:1004.4007 [gr-qc]].
|
| * | 555 | Moncrief, V., “Gravitational perturbations of spherically symmetric systems. I. The exterior
problem”, Ann. Phys., 88, 323–342 (1974). [DOI].
|
| * | 556 | Moncrief, V., “Radiation from collapsing relativistic stars. IV. Black hole recoil”, Astrophys.
J., 238, 333–336 (1980). [DOI], [ADS].
|
| * | 557 | Mora, T. and Will, C. M., “Post-Newtonian diagnostic of quasiequilibrium binary
configurations of compact objects”, Phys. Rev. D, 69, 104021 (2004). [DOI], [arXiv:gr-qc/0312082
[gr-qc]]. Erratum: 10.1103/PhysRevD.71.129901.
|
| * | 558 | Moser, A. R., Matzner, R. A. and Ryan Jr, M. P., “Numerical solutions for symmetric Bianchi
type IX universes”, Ann. Phys. (N.Y.), 79, 558–579 (1973). [DOI], [ADS].
|
| * | 559 | Müller, D. and Brügmann, B., “Toward a dynamical shift condition for unequal mass black
hole binary simulations”, Class. Quantum Grav., 27, 114008 (2010). [DOI], [arXiv:0912.3125
[gr-qc]].
|
| * | 560 | Müller, D., Grigsby, J. and Brügmann, B., “Dynamical shift condition for unequal mass black
hole binaries”, Phys. Rev. D, 82, 064004 (2010). [DOI], [arXiv:1003.4681].
|
| * | 561 | Mundim, B. C., A Numerical Study of Boson Star Binaries, Ph.D. thesis, (University of British
Columbia, Vancouver, 2010). [ADS], [arXiv:1003.0239 [gr-qc]].
|
| * | 562 | Murata, K., Kinoshita, S. and Tanahashi, N., “Non-equilibrium Condensation Process
in a Holographic Superconductor”, J. High Energy Phys., 2010(07), 050 (2010). [DOI],
[arXiv:1005.0633 [hep-th]].
|
| * | 563 | Murata, K., Reall, H. S. and Tanahashi, N., “What happens at the horizon(s) of an extreme
black hole?”, Class. Quantum Grav., 30, 235007 (2013). [DOI], [arXiv:1307.6800].
|
| * | 564 | Murata, K. and Soda, J., “A Note on Separability of Field Equations in Myers-Perry
Spacetimes”, Class. Quantum Grav., 25, 035006 (2008). [DOI], [arXiv:0710.0221 [hep-th]].
|
| * | 565 | Myers, R. C. and Perry, M. J., “Black Holes in Higher Dimensional Space-Times”, Annals
Phys., 172, 304 (1986). [DOI].
|
| * | 566 | Nagar, A. and Rezzolla, L., “Gauge-invariant non-spherical metric perturbations of
Schwarzschild black-hole spacetimes”, Class. Quantum Grav., 22, R167 (2005). [DOI],
[gr-qc/0502064].
|
| * | 567 | Nagy, G., Ortiz, O. E. and Reula, O. A., “Strongly hyperbolic second order Einstein’s
evolution equations”, Phys. Rev. D, 70, 044012 (2004). [DOI], [gr-qc/0402123].
|
| * | 568 | Nakamura, T., “General Relativistic Collapse of Axially Symmetric Stars Leading to the
Formation of Rotating Black Holes”, Prog. Theor. Phys., 65, 1876–1890 (1981). [DOI].
|
| * | 569 | Nakamura, T., Oohara, K. and Kojima, Y., “General Relativistic Collapse to Black Holes and
Gravitational Waves from Black Holes”, Prog. Theor. Phys. Suppl., 90, 1–218 (1987). [DOI],
[ADS].
|
| * | 570 | Natario, J., “Relativity and Singularities: A Short Introduction for Mathematicians”, arXiv,
e-print, (2006). [ADS], [arXiv:math/0603190 [math.DG]].
|
| * | 571 | Nerozzi, A., “A new approach to the Newman-Penrose formalism”, arXiv, e-print, (2011).
[ADS], [arXiv:1109.4400 [gr-qc]].
|
| * | 572 | Nerozzi, A., Beetle, C., Bruni, M., Burko, L. M. and Pollney, D., “Towards wave extraction
in numerical relativity: the quasi-Kinnersley frame”, Phys. Rev. D, 72, 024014 (2005). [DOI],
[gr-qc/0407013].
|
| * | 573 | Nerozzi, A. and Elbracht, O., “Using curvature invariants for wave extraction in numerical
relativity”, arXiv, e-print, (2008). [ADS], [arXiv:0811.1600 [gr-qc]].
|
| * | 574 | Neugebauer, G. and Hennig, J., “Non-existence of stationary two-black-hole configurations”,
Gen. Relativ. Gravit., 41, 2113–2130 (2009). [DOI], [arXiv:0905.4179 [gr-qc]].
|
| * | 575 | Newman, E. and Penrose, R., “An approach to gravitational radiation by a method of spin
coefficients”, J. Math. Phys., 3, 566–578 (1962). [DOI].
|
| * | 576 | Newman, E. T., Couch, R., Chinnapared, K., Exton, A., Prakash, A. and Torrence, R., “Metric
of a Rotating, Charged Mass”, J. Math. Phys., 6, 918–919 (1965). [DOI], [ADS].
|
| * | 577 | Nicasio, C. O., Gleiser, R. J., Price, R. H. and Pullin, J., “Collision of boosted black
holes: Second order close limit calculations”, Phys. Rev. D, 59, 044024 (1999). [DOI],
[arXiv:gr-qc/9802063 [gr-qc]].
|
| * | 578 | Nichols, D. A., Zimmerman, A., Chen, Y., Lovelace, G., Matthews, K. D., Owen, R., Zhang,
F. and Thorne, K. S., “Visualizing Spacetime Curvature via Frame-Drag Vortexes and Tidal
Tendexes. III. Quasinormal Pulsations of Schwarzschild and Kerr Black Holes”, Phys. Rev. D,
86, 104028 (2012). [DOI], [arXiv:1208.3038 [gr-qc]].
|
| * | 579 | Nichols, D. A. et al., “Visualizing Spacetime Curvature via Frame-Drag Vortexes and Tidal
Tendexes. I. General Theory and Weak-Gravity Applications”, Phys. Rev. D, 84, 124014 (2011).
[DOI], [arXiv:1108.5486 [gr-qc]].
|
| * | 580 | Nollert, H.-P., “Quasinormal modes: the characteristic ‘sound’ of black holes and neutron stars”,
Class. Quantum Grav., 16, R159–R216 (1999). [DOI], [ADS].
|
| * | 581 | Nordtvedt Jr, K. L. and Will, C. M., “Conservation Laws and Preferred Frames in Relativistic
Gravity. II. Experimental Evidence to Rule Out Preferred-Frame Theories of Gravity”,
Astrophys. J., 177, 775–792 (1972). [DOI], [ADS].
|
| * | 582 | Novak, J., “Spherical neutron star collapse in tensor-scalar theory of gravity”, Phys. Rev. D,
57, 4789–4801 (1998). [DOI], [arXiv:gr-qc/9707041 [gr-qc]].
|
| * | 583 | Oechslin, R. and Janka, H.-T., “Gravitational waves from relativistic neutron star mergers
with nonzero-temperature equations of state”, Phys. Rev. Lett., 99, 121102 (2007). [DOI],
[arXiv:astro-ph/0702228 [ASTRO-PH]].
|
| * | 584 | Ohme, F., “Analytical meets numerical relativity - status of complete gravitational
waveform models for binary black holes”, Class. Quantum Grav., 29, 124002 (2012). [DOI],
[arXiv:1111.3737 [gr-qc]].
|
| * | 585 | Okawa, H. and Cardoso, V., “Black holes and fundamental fields: hair, kicks and a gravitational
Magnus effect”, Phys. Rev. D, 90, 104040 (2014). [DOI], [ADS], [arXiv:1405.4861 [gr-qc]].
|
| * | 586 | Okawa, H., Cardoso, V. and Pani, P., “Collapse of self-interacting fields in asymptotically flat
spacetimes: do self-interactions render Minkowski spacetime unstable?”, Phys. Rev. D, 89,
041502 (2014). [DOI], [arXiv:1311.1235 [gr-qc]].
|
| * | 587 | Okawa, H., Nakao, K.-i. and Shibata, M., “Is super-Planckian physics visible? Scattering of
black holes in 5 dimensions”, Phys. Rev. D, 83, 121501 (2011). [DOI], [arXiv:1105.3331 [gr-qc]].
|
| * | 588 | Okawa, H., Witek, H. and Cardoso, V., “Black holes and fundamental fields in Numerical
Relativity: initial data construction and evolution of bound states”, Phys. Rev. D, 89, 104032
(2014). [DOI], [arXiv:1401.1548 [gr-qc]].
|
| * | 589 | Oppenheimer, J. R. and Snyder, H., “On Continued gravitational contraction”, Phys. Rev.,
56, 455–459 (1939). [DOI].
|
| * | 590 | Oppenheimer, J. R. and Volkoff, G. M., “On Massive neutron cores”, Phys. Rev., 55, 374–381
(1939). [DOI].
|
| * | 591 | Ortaggio, M., Pravda, V., Pravdova, A. and Reall, H. S., “On a five-dimensional version of the
Goldberg–Sachs theorem”, Class. Quantum Grav., 29, 205002 (2012). [DOI], [arXiv:1205.1119
[gr-qc]].
|
| * | 592 | Ott, C. D., “The Gravitational Wave Signature of Core-Collapse Supernovae”, Class. Quantum
Grav., 26, 063001 (2009). [DOI], [arXiv:0809.0695 [astro-ph]].
|
| * | 593 | Owen, R. et al., “Frame-Dragging Vortexes and Tidal Tendexes Attached to Colliding Black
Holes: Visualizing the Curvature of Spacetime”, Phys. Rev. Lett., 106, 151101 (2011). [DOI],
[arXiv:1012.4869 [gr-qc]].
|
| * | 594 | Page, D. N., “Classical and quantum decay of oscillatons: Oscillating selfgravitating real scalar
field solitons”, Phys. Rev. D, 70, 023002 (2004). [DOI], [arXiv:gr-qc/0310006 [gr-qc]].
|
| * | 595 | Palenzuela, C., Anderson, M., Lehner, L., Liebling, S. L. and Neilsen, D., “Stirring, not shaking:
binary black holes’ effects on electromagnetic fields”, Phys. Rev. Lett., 103, 081101 (2009).
[DOI], [arXiv:0905.1121 [astro-ph.HE]].
|
| * | 596 | Palenzuela, C., Barausse, E., Ponce, M. and Lehner, L., “Dynamical scalarization of neutron
stars in scalar-tensor gravity theories”, Phys. Rev. D, 89, 044024 (2014). [DOI], [arXiv:1310.4481
[gr-qc]].
|
| * | 597 | Palenzuela, C., Lehner, L. and Liebling, S. L., “Orbital Dynamics of Binary Boson Star
Systems”, Phys. Rev. D, 77, 044036 (2008). [DOI], [arXiv:0706.2435 [gr-qc]].
|
| * | 598 | Palenzuela, C., Lehner, L. and Liebling, S. L., “Dual Jets from Binary Black Holes”, Science,
329, 927 (2010). [DOI], [arXiv:1005.1067 [astro-ph.HE]].
|
| * | 599 | Palenzuela, C., Olabarrieta, I., Lehner, L. and Liebling, S. L., “Head-on collisions of boson
stars”, Phys. Rev. D, 75, 064005 (2007). [DOI], [arXiv:gr-qc/0612067 [gr-qc]].
|
| * | 600 | Pan, Y., Buonanno, A., Boyle, M., Buchman, L. T., Kidder, L. E., Pfeiffer, H. P. and Scheel,
M. A., “Inspiral-merger-ringdown multipolar waveforms of nonspinning black-hole binaries
using the effective-one-body formalism”, Phys. Rev. D, 84, 124052 (2011). [DOI], [ADS],
[arXiv:1106.1021 [gr-qc]].
|
| * | 601 | Pani, P., Berti, E. and Gualtieri, L., “Gravito-Electromagnetic Perturbations of Kerr-Newman
Black Holes: Stability and Isospectrality in the Slow-Rotation Limit”, Phys. Rev. Lett., 110,
241103 (2013). [DOI], [arXiv:1304.1160 [gr-qc]].
|
| * | 602 | Pani, P. and Cardoso, V., “Are black holes in alternative theories serious astrophysical
candidates? The case for Einstein-dilaton-Gauss-Bonnet black holes”, Phys. Rev. D, 79, 084031
(2009). [DOI], [ADS], [arXiv:0902.1569 [gr-qc]].
|
| * | 603 | Pani, P., Cardoso, V. and Gualtieri, L., “Gravitational waves from extreme mass-ratio inspirals
in Dynamical Chern-Simons gravity”, Phys. Rev. D, 83, 104048 (2011). [DOI], [arXiv:1104.1183
[gr-qc]].
|
| * | 604 | Pani, P., Cardoso, V., Gualtieri, L., Berti, E. and Ishibashi, A., “Black hole bombs and photon
mass bounds”, Phys. Rev. Lett., 109, 131102 (2012). [DOI], [arXiv:1209.0465 [gr-qc]].
|
| * | 605 | Pani, P., Cardoso, V., Gualtieri, L., Berti, E. and Ishibashi, A., “Perturbations of slowly rotating
black holes: massive vector fields in the Kerr metric”, Phys. Rev. D, 86, 104017 (2012). [DOI],
[arXiv:1209.0773 [gr-qc]].
|
| * | 606 | Papapetrou, A., “Equations of Motion in General Relativity”, Proc. Phys. Soc. London, Sect.
A, 64, 57–75 (1951). [DOI], [ADS]. refdb: ‘Sect. B’ is wrong.
|
| * | 607 | Penrose, R., “Asymptotic properties of fields and spacetimes”, Phys. Rev. Lett., 10, 66–68
(1963). [DOI].
|
| * | 608 | Penrose, R., “Gravitational collapse and space-time singularities”, Phys. Rev. Lett., 14, 57–59
(1965). [DOI].
|
| * | 609 | Penrose, R., “Structure of Space-Time”, in DeWitt, C. M. and Wheeler, J. A., eds., Battelle Rencontres: 1967 Lectures in Mathematics and Physics, pp. 121–235, (W. A. Benjamin, New York, 1968). |
| * | 610 | Penrose, R., “Gravitational collapse: the role of general relativity”, Revista del Nuovo Cimento, 1, 252 (1969). |
| * | 611 | Penrose, R., “Cambridge University Seminar”, Cambridge, England, conference paper, (1974). |
| * | 612 | Peres, A., “Classical Radiation Recoil”, Phys. Rev., 128, 2471–2475 (1962). [DOI], [ADS].
|
| * | 613 | Peters, P. C., “Gravitational Radiation and the Motion of Two Point Masses”, Phys. Rev.,
136, B1224–B1232 (1964). [DOI].
|
| * | 614 | Peters, P. C. and Mathews, J., “Gravitational radiation from point masses in a Keplerian
orbit”, Phys. Rev., 131, 435–439 (1963). [DOI].
|
| * | 615 | Petrich, L. I., Shapiro, S. L. and Wasserman, I., “Gravitational radiation from nonspherical
infall into black holes. II. A catalog of ‘exact’ waveforms”, Astrophys. J. Suppl. Ser., 58, 297–320
(1985). [DOI].
|
| * | 616 | Petrov, A. Z., “The classification of spaces defining gravitational fields”, Scientific Proceedings
of Kazan State University, 114, 55–69 (1954). [ADS]. Uchenye Zapiski Kazanskogo
Gosudarstvennogo Universiteta im. V. I. Ulyanovicha-Lenina [Scientific Proceedings of Kazan
State University, named after V.I. Ulyanov-Lenin], Jubilee (1804-1954) Collection.
|
| * | 617 | Pfeiffer, H. P., “Numerical simulations of compact object binaries”, Class. Quantum Grav.,
29, 124004 (2012). [DOI], [arXiv:1203.5166 [gr-qc]].
|
| * | 618 | Pfeiffer, H. P., Kidder, L. E., Scheel, M. A. and Teukolsky, S. A., “A multidomain spectral
method for solving elliptic equations”, Comput. Phys. Commun., 152, 253–273 (2003). [DOI],
[gr-qc/0202096].
|
| * | 619 | Plebanski, J. and Bazanski, S., “The general Fokker action principle and its application in general relativity theory”, Acta Phys. Pol., 18, 307 (1959). |
| * | 620 | Poisson, E., “Post-Newtonian Theory for the Common Reader”, lecture notes, University of
Guelph, (2007). URL (accessed 7 August 2014): http://www.physics.uoguelph.ca/poisson/research/notes.html.
|
| * | 621 | Poisson, E. and Israel, W., “Inner-horizon instability and mass inflation in black holes”, Phys.
Rev. Lett., 63, 1663–1666 (1989). [DOI].
|
| * | 622 | Poisson, E. and Israel, W., “Internal structure of black holes”, Phys. Rev. D, 41, 1796–1809
(1990). [DOI].
|
| * | 623 | Poisson, E., Pound, A. and Vega, I., “The Motion of Point Particles in Curved Spacetime”,
Living Rev. Relativity, 14, lrr-2011-7 (2011). [DOI], [ADS], [arXiv:1102.0529 [gr-qc]]. URL
(accessed 2 April 2014): http://www.livingreviews.org/lrr-2011-7. |
| * | 624 | Polchinski, J., String Theory, 2 vols., Cambridge Monographs on Mathematical Physics, (Cambridge University Press, Cambridge, New York, 1998). |
| * | 625 | Porto, R. A., Ross, A. and Rothstein, I. Z., “Spin induced multipole moments for the
gravitational wave flux from binary inspirals to third Post-Newtonian order”, J. Cosmol.
Astropart. Phys., 2011(03), 009 (2011). [DOI], [arXiv:1007.1312 [gr-qc]].
|
| * | 626 | Porto, R. A. and Rothstein, I. Z., “Calculation of the first nonlinear contribution to the
general-relativistic spin-spin interaction for binary systems”, Phys. Rev. Lett., 97, 021101
(2006). [DOI], [arXiv:gr-qc/0604099].
|
| * | 627 | Porto, R. A. and Rothstein, I. Z., “Spin(1)spin(2) effects in the motion of inspiralling compact
binaries at third order in the post-Newtonian expansion”, Phys. Rev. D, 78, 044012 (2008).
[DOI], [arXiv:0802.0720 [gr-qc]]. Erratum: 10.1103/PhysRevD.81.029904.
|
| * | 628 | Press, W. H. and Thorne, K. S., “Gravitational-wave astronomy”, Ann. Rev. Astron.
Astrophys., 10, 335–374 (1972). [DOI].
|
| * | 629 | Pretorius, F., “Evolution of binary black hole spacetimes”, Phys. Rev. Lett., 95, 121101 (2005).
[DOI], [arXiv:gr-qc/0507014].
|
| * | 630 | Pretorius, F., “Numerical relativity using a generalized harmonic decomposition”, Class.
Quantum Grav., 22, 425–452 (2005). [DOI], [gr-qc/0407110].
|
| * | 631 | Pretorius, F., “Binary Black Hole Coalescence”, arXiv, e-print, (2007). [ADS], [arXiv:0710.1338
[gr-qc]].
|
| * | 632 | Pretorius, F. and Khurana, D., “Black Hole Mergers and Unstable Circular Orbits”, Class.
Quantum Grav., 24, S83–S108 (2007). [DOI], [gr-qc/0702084].
|
| * | 633 | Price, R. H., “Nonspherical perturbations of relativistic gravitational collapse. 1. Scalar and
gravitational perturbations”, Phys. Rev. D, 5, 2419–2438 (1972). [DOI].
|
| * | 634 | Price, R. H. and Pullin, J., “Colliding black holes: The Close limit”, Phys. Rev. Lett., 72,
3297–3300 (1994). [DOI], [arXiv:gr-qc/9402039 [gr-qc]].
|
| * | 635 | Psaltis, D., “Probes and Tests of Strong-Field Gravity with Observations in the Electromagnetic
Spectrum”, Living Rev. Relativity, 11, lrr-2008-9 (2008). [DOI], [ADS], [arXiv:0806.1531]. URL
(accessed 2 April 2014): http://www.livingreviews.org/lrr-2008-9. |
| * | 636 | Psaltis, D., “Two approaches to testing general relativity in the strong-field regime”, J. Phys.:
Conf. Ser., 189, 012033 (2009). [DOI], [arXiv:0907.2746 [astro-ph.HE]].
|
| * | 637 | Pullin, J., “The Close limit of colliding black holes: An Update”, Prog. Theor. Phys. Suppl.,
136, 107–120 (1999). [DOI], [arXiv:gr-qc/9909021 [gr-qc]].
|
| * | 638 | Randall, L. and Sundrum, R., “An alternative to compactification”, Phys. Rev. Lett., 83,
4690–4693 (1999). [DOI], [arXiv:hep-th/9906064].
|
| * | 639 | Randall, L. and Sundrum, R., “A large mass hierarchy from a small extra dimension”, Phys.
Rev. Lett., 83, 3370–3373 (1999). [DOI], [arXiv:hep-ph/9905221].
|
| * | 640 | Read, J. S., Markakis, C., Shibata, M., Uryū, K., Creighton, J. D. E. and Friedman, J. L.,
“Measuring the neutron star equation of state with gravitational wave observations”, Phys.
Rev. D, 79, 124033 (2009). [DOI], [ADS], [arXiv:0901.3258 [gr-qc]].
|
| * | 641 | Regge, T. and Wheeler, J. A., “Stability of a Schwarzschild Singularity”, Phys. Rev., 108,
1063–1069 (1957). [DOI].
|
| * | 642 | Reisswig, C., Bishop, N. T., Pollney, D. and Szilagyi, B., “Unambiguous determination of
gravitational waveforms from binary black hole mergers”, Phys. Rev. Lett., 103, 221101 (2009).
[DOI], [arXiv:0907.2637 [gr-qc]].
|
| * | 643 | Reisswig, C., Ott, C. D., Sperhake, U. and Schnetter, E., “Gravitational Wave Extraction
in Simulations of Rotating Stellar Core Collapse”, Phys. Rev. D, 83, 064008 (2011). [DOI],
[arXiv:1012.0595 [gr-qc]].
|
| * | 644 | Reisswig, C. and Pollney, D., “Notes on the integration of numerical relativity waveforms”,
Class. Quantum Grav., 28, 195015 (2011). [DOI], [arXiv:1006.1632 [gr-qc]].
|
| * | 645 | Reula, O. A., “Hyperbolic Methods for Einstein’s Equations”, Living Rev. Relativity, 1,
lrr-1998-3 (1998). [DOI], [ADS]. URL (accessed 2 April 2014): http://www.livingreviews.org/lrr-1998-3. |
| * | 646 | Reula, O. A., “Strongly hyperbolic systems in general relativity”, arXiv, e-print, (2004). [ADS],
[arXiv:gr-qc/0403007].
|
| * | 647 | Rezzolla, L. and Takami, K., “Black-hole production from ultrarelativistic collisions”, Class.
Quantum Grav., 30, 012001 (2013). [DOI], [arXiv:1209.6138 [gr-qc]].
|
| * | 648 | Richardson, L. F., “The approximate arithmetical solution by finite differences of physical
problems involving differential equations with an application to stresses in a masonry dam”,
Philos. Trans. R. Soc. London, Ser. A, 210, 307–357 (1910). [DOI].
|
| * | 649 | Ringström, H., “Cosmic Censorship for Gowdy Spacetimes”, Living Rev. Relativity, 13,
lrr-2010-2 (2010). [DOI], [ADS]. URL (accessed 2 April 2014): http://www.livingreviews.org/lrr-2010-2. |
| * | 650 | Rinne, O., Axisymmetric Numerical Relativity, Ph.D. thesis, (Cambridge University,
Cambridge, 2006). [ADS], [arXiv:gr-qc/0601064].
|
| * | 651 | Rinne, O., “Stable radiation-controlling boundary conditions for the generalized harmonic
Einstein equations”, Class. Quantum Grav., 23, 6275–6300 (2006). [DOI], [arXiv:gr-qc/0606053
[gr-qc]].
|
| * | 652 | Rinne, O., Lindblom, L. and Scheel, M. A., “Testing outer boundary treatments for the
Einstein equations”, Class. Quantum Grav., 24, 4053–4078 (2007). [DOI], [arXiv:0704.0782
[gr-qc]].
|
| * | 653 | Roberts, M. D., “Scalar Field Counterexamples to the Cosmic Censorship Hypothesis”, Gen.
Relativ. Gravit., 21, 907–939 (1989). [DOI].
|
| * | 654 | Robinson, D. C., “Classification of black holes with electromagnetic fields”, Phys. Rev. D, 10,
458–460 (1974). [DOI].
|
| * | 655 | Romatschke, P. and Hogg, J. D., “Pre-Equilibrium Radial Flow from Central Shock-Wave
Collisions in AdS5”, J. High Energy Phys., 2013(04), 048 (2013). [DOI], [arXiv:1301.2635
[hep-th]].
|
| * | 656 | Rosa, J. G. and Dolan, S. R., “Massive vector fields on the Schwarzschild spacetime:
quasi-normal modes and bound states”, Phys. Rev. D, 85, 044043 (2012). [DOI], [arXiv:1110.4494
[hep-th]].
|
| * | 657 | Rovelli, C., “Loop Quantum Gravity”, Living Rev. Relativity, 11, lrr-2008-5 (2008). [DOI],
[ADS]. URL (accessed 2 April 2014): http://www.livingreviews.org/lrr-2008-5. |
| * | 658 | Rubakov, V. A., “Large and infinite extra dimensions: An Introduction”, Phys. Usp., 44,
871–893 (2001). [DOI], [arXiv:hep-ph/0104152 [hep-ph]].
|
| * | 659 | Rubakov, V. A., Sazhin, M. V. and Veryaskin, A. V., “Graviton Creation in the Inflationary
Universe and the Grand Unification Scale”, Phys. Lett. B, 115, 189–192 (1982). [DOI].
|
| * | 660 | Ruffini, R., “Gravitational radiation from a mass projected into a schwarzschild black hole”,
Phys. Rev. D, 7, 972–976 (1973). [DOI].
|
| * | 661 | Ruffini, R. and Wheeler, J. A., “Introducing the black hole”, Phys. Today, 24, 30–41 (1971).
[DOI], [ADS].
|
| * | 662 | Rugh, S. E. and Jones, B. J. T., “Chaotic behavior and oscillating three volumes in Bianchi
IX universes”, Phys. Lett. A, 147, 353–359 (1990). [DOI].
|
| * | 663 | Ruiz, M., Alcubierre, M., Nuñez, D. and Takahashi, R., “Multipole expansions for energy
and momenta carried by gravitational waves”, Gen. Relativ. Gravit., 40, 2467 (2008). [DOI],
[arXiv:0707.4654 [gr-qc]]. Erratum: 10.1007/s10714-008-0684-7, the title should read as below.
|
| * | 664 | Ruiz, M., Hilditch, D. and Bernuzzi, S., “Constraint preserving boundary conditions for the
Z4c formulation of general relativity”, Phys. Rev. D, 83, 024025 (2011). [DOI], [arXiv:1010.0523
[gr-qc]].
|
| * | 665 | Ruiz, M., Rinne, O. and Sarbach, O., “Outer boundary conditions for Einstein’s field equations
in harmonic coordinates”, Class. Quantum Grav., 24, 6349–6378 (2007). [DOI], [arXiv:0707.2797
[gr-qc]].
|
| * | 666 | Sachs, R. K., “Gravitational Waves in General Relativity. VI. The Outgoing Radiation
Condition”, Proc. R. Soc. London, Ser. A, 264, 309–338 (1961). [DOI], [ADS].
|
| * | 667 | Sachs, R. K., “Gravitational Waves in General Relativity. VIII. Waves in Asymptotically Flat
Space-Time”, Proc. R. Soc. London, Ser. A, 270, 103–126 (1962). [DOI], [ADS].
|
| * | 668 | Saijo, M., Shinkai, H.-A. and Maeda, K.-I., “Gravitational waves in Brans-Dicke theory:
Analysis by test particles around a Kerr black hole”, Phys. Rev. D, 56, 785–797 (1997). [DOI],
[arXiv:gr-qc/9701001 [gr-qc]].
|
| * | 669 | Salgado, M., “The Cauchy problem of scalar tensor theories of gravity”, Class. Quantum Grav.,
23, 4719–4742 (2006). [DOI], [arXiv:gr-qc/0509001 [gr-qc]].
|
| * | 670 | Salgado, M., Martinez-del Rio, D., Alcubierre, M. and Nunez, D., “Hyperbolicity of
scalar-tensor theories of gravity”, Phys. Rev. D, 77, 104010 (2008). [DOI], [arXiv:0801.2372
[gr-qc]].
|
| * | 671 | Sampaio, M. O. P., Herdeiro, C. A. R. and Wang, M., “Marginal scalar and Proca clouds around
Reissner-Nordström black holes”, Phys. Rev. D, 90, 064004 (2014). [DOI], [arXiv:1406.3536
[gr-qc]].
|
| * | 672 | “SAMRAI: Structured Adaptive Mesh Refinement Application Infrastructure”, project
homepage, Lawrence Livermore National Laboratory. URL (accessed 2 April 2014): https://computation-rnd.llnl.gov/SAMRAI/.
|
| * | 673 | Santamaría, L. et al., “Matching post-Newtonian and numerical relativity waveforms:
systematic errors and a new phenomenological model for non-precessing black hole binaries”,
Phys. Rev. D, 82, 064016 (2010). [DOI], [ADS], [arXiv:1005.3306 [gr-qc]].
|
| * | 674 | Sarbach, O. and Tiglio, M., “Continuum and Discrete Initial-Boundary-Value Problems
and Einstein’s Field Equations”, Living Rev. Relativity, 15, lrr-2012-9 (2012). [DOI], [ADS],
[arXiv:1203.6443 [gr-qc]]. URL (accessed 2 April 2014): http://www.livingreviews.org/lrr-2012-9. |
| * | 675 | Sasaki, M. and Tagoshi, H., “Analytic Black Hole Perturbation Approach to Gravitational
Radiation”, Living Rev. Relativity, 6, lrr-2003-6 (2003). [DOI], [ADS], [arXiv:gr-qc/0306120].
URL (accessed 2 April 2014): http://www.livingreviews.org/lrr-2003-6. |
| * | 676 | Schäfer, G., “Post-Newtonian methods: Analytic results on the binary problem”, Fundam.
Theor. Phys., 162, 167–210 (2011). [arXiv:0910.2857 [gr-qc]].
|
| * | 677 | Scheel, M. A., Kidder, L. E., Lindblom, L., Pfeiffer, H. P. and Teukolsky, S. A., “Toward
stable 3D numerical evolutions of black-hole spacetimes”, Phys. Rev. D, 66, 124005 (2002).
[DOI], [gr-qc/0209115].
|
| * | 678 | Scheel, M. A., Pfeiffer, H. P., Lindblom, L., Kidder, L. E., Rinne, O. and Teukolsky, S. A.,
“Solving Einstein’s equations with dual coordinate frames”, Phys. Rev. D, 74, 104006 (2006).
[DOI], [gr-qc/0607056].
|
| * | 679 | Scheel, M. A., Shapiro, S. L. and Teukolsky, S. A., “Collapse to black holes in Brans-Dicke
theory. 1. Horizon boundary conditions for dynamical space-times”, Phys. Rev. D, 51,
4208–4235 (1995). [DOI], [arXiv:gr-qc/9411025 [gr-qc]].
|
| * | 680 | Scheel, M. A., Shapiro, S. L. and Teukolsky, S. A., “Collapse to black holes in Brans-Dicke
theory. 2. Comparison with general relativity”, Phys. Rev. D, 51, 4236–4249 (1995). [DOI],
[arXiv:gr-qc/9411026 [gr-qc]].
|
| * | 681 | Schmidt, M., “3C 273: A Star-like Object with Large Red-shift”, Nature, 197, 1040 (1963).
[DOI], [ADS].
|
| * | 682 | Schnetter, E., “Finding apparent horizons and other two surfaces of constant expansion”, Class.
Quantum Grav., 20, 4719–4737 (2003). [DOI], [gr-qc/0306006].
|
| * | 683 | Schnetter, E., “Time Step Size Limitation Introduced by the BSSN Gamma Driver”, Class.
Quantum Grav., 27, 167001 (2010). [DOI], [arXiv:1003.0859 [gr-qc]].
|
| * | 684 | Schnetter, E., Hawley, S. H. and Hawke, I., “Evolutions in 3-D numerical relativity using fixed
mesh refinement”, Class. Quantum Grav., 21, 1465–1488 (2004). [DOI], [gr-qc/0310042].
|
| * | 685 | Schunck, F. E. and Mielke, E. W., “General relativistic boson stars”, Class. Quantum Grav.,
20, R301–R356 (2003). [DOI], [arXiv:0801.0307 [astro-ph]].
|
| * | 686 | Schutz, B. F., “Gravitational wave astronomy”, Class. Quantum Grav., 16, A131–A156 (1999).
[DOI], [arXiv:gr-qc/9911034 [gr-qc]].
|
| * | 687 | Schwarzschild, K., “On the gravitational field of a mass point according to Einstein’s
theory”, Sitzungsber. Preuss. Akad. Wiss. Berlin (Math. Phys.), 1916, 189–196 (1916).
[arXiv:physics/9905030 [physics]].
|
| * | 688 | Seidel, E. and Suen, W. M., “Oscillating soliton stars”, Phys. Rev. Lett., 66, 1659–1662 (1991).
[DOI].
|
| * | 689 | Seidel, E. and Suen, W.-M., “Formation of solitonic stars through gravitational cooling”, Phys.
Rev. Lett., 72, 2516–2519 (1994). [DOI], [arXiv:gr-qc/9309015 [gr-qc]].
|
| * | 690 | Seljak, U. and Zaldarriaga, M., “Signature of gravity waves in polarization of the microwave
background”, Phys. Rev. Lett., 78, 2054–2057 (1997). [DOI], [arXiv:astro-ph/9609169 [astro-ph]].
|
| * | 691 | Shapiro, S. L. and Teukolsky, S. A., Black Holes, White Dwarfs, and Neutron Stars: The
Physics of Compact Objects, (Wiley, New York, 1983). [ADS], [Google Books].
|
| * | 692 | Shapiro, S. L. and Teukolsky, S. A., “Formation of naked singularities: The violation of cosmic
censorship”, Phys. Rev. Lett., 66, 994–997 (1991). [DOI].
|
| * | 693 | Shapiro, S. L. and Wasserman, I., “Gravitational radiation from nonspherical infall into black
holes”, Astrophys. J., 260, 838–848 (1982). [DOI].
|
| * | 694 | Shibata, M., “Revisiting stabilities of 5D Myers–Perry black holes in numerical relativity”,
New Frontiers in Dynamical Gravity, Cambridge, 24 – 28 March 2014, conference homepage,
University of Cambridge, (2014). URL (accessed 2 April 2014): http://www.ctc.cam.ac.uk/activities/adsgrav2014/Slides/Slides_Shibata.pdf.
|
| * | 695 | Shibata, M. and Nakamura, T., “Evolution of three-dimensional gravitational waves: Harmonic
slicing case”, Phys. Rev. D, 52, 5428–5444 (1995). [DOI].
|
| * | 696 | Shibata, M., Nakao, K. and Nakamura, T., “Scalar type gravitational wave emission from
gravitational collapse in Brans-Dicke theory: Detectability by a laser interferometer”, Phys.
Rev. D, 50, 7304–7317 (1994). [DOI].
|
| * | 697 | Shibata, M., Okawa, H. and Yamamoto, T., “High-velocity collision of two black holes”, Phys.
Rev. D, 78, 101501 (2008). [DOI], [arXiv:0810.4735 [gr-qc]].
|
| * | 698 | Shibata, M. and Uryū, K., “Simulation of merging binary neutron stars in full general
relativity: Γ = 2 case”, Phys. Rev. D, 61, 064001 (2000). [DOI], [arXiv:gr-qc/9911058].
|
| * | 699 | Shibata, M. and Uryū, K., “Merger of black hole - neutron star binaries: Nonspinning black
hole case”, Phys. Rev. D, 74, 121503 (2006). [DOI], [arXiv:gr-qc/0612142].
|
| * | 700 | Shibata, M. and Yoshino, H., “Bar-mode instability of rapidly spinning black hole in higher
dimensions: Numerical simulation in general relativity”, Phys. Rev. D, 81, 104035 (2010). [DOI],
[arXiv:1004.4970 [gr-qc]].
|
| * | 701 | Shibata, M. and Yoshino, H., “Nonaxisymmetric instability of rapidly rotating black hole in
five dimensions”, Phys. Rev. D, 81, 021501 (2010). [DOI], [arXiv:0912.3606 [gr-qc]].
|
| * | 702 | Shinkai, H., “Formulations of the Einstein equations for numerical simulations”, J. Korean
Phys. Soc., 54, 2513–2528 (2009). [DOI], [arXiv:0805.0068 [gr-qc]].
|
| * | 703 | Shoemaker, D., Smith, K., Sperhake, U., Laguna, P., Schnetter, E. and Fiske, D., “Moving
black holes via singularity excision”, Class. Quantum Grav., 20, 3729–3743 (2003). [DOI],
[gr-qc/0301111].
|
| * | 704 | Sjödin, K. R. P., Sperhake, U. and Vickers, J. A., “Dynamic cosmic strings. I”, Phys. Rev.
D, 63, 024011 (2000). [DOI], [gr-qc/0002096].
|
| * | 705 | Skenderis, K., “Lecture notes on holographic renormalization”, Class. Quantum Grav., 19,
5849–5876 (2002). [DOI], [arXiv:hep-th/0209067].
|
| * | 706 | Smailagic, A. and Spallucci, E., “‘Kerrr’ black hole: The lord of the string”, Phys. Lett. B, 688,
82–87 (2010). [DOI], [ADS], [arXiv:1003.3918 [hep-th]].
|
| * | 707 | Smarr, L., “Gravitational Radiation from Distant Encounters and from Headon Collisions of
Black Holes: The Zero Frequency Limit”, Phys. Rev. D, 15, 2069–2077 (1977). [DOI].
|
| * | 708 | Smarr, L., “Space-Time Generated by Computers: Black Holes with Gravitational Radiation”,
Ann. N.Y. Acad. Sci., 302, 569–604 (1977). [DOI], [ADS].
|
| * | 709 | Smarr, L. and York Jr, J. W., “Kinematical conditions in the construction of spacetime”,
Phys. Rev. D, 17, 2529–2551 (1978). [DOI].
|
| * | 710 | Smarr, L. L., The structure of general relativity with a numerical illustration: The collision of
two black holes, Ph.D. thesis, (University of Texas at Austin, Austin, 1975). [ADS].
|
| * | 711 | Smarr, L. L., ed., Sources of Gravitational Radiation, Proceedings of the Battelle Seattle
Workshop, July 24 – August 4, 1978, (Cambridge University Press, Cambridge; New York,
1979). [ADS], [Google Books].
|
| * | 712 | Sotiriou, T. P. and Faraoni, V., “Black holes in scalar-tensor gravity”, Phys. Rev. Lett., 108,
081103 (2012). [DOI], [arXiv:1109.6324 [gr-qc]].
|
| * | 713 | Sotiriou, T. P. and Zhou, S.-Y., “Black Hole Hair in Generalized Scalar-Tensor Gravity”, Phys.
Rev. Lett., 112, 251102 (2014). [DOI], [ADS], [arXiv:1312.3622 [gr-qc]].
|
| * | 714 | Sperhake, U., “Binary black-hole evolutions of excision and puncture data”, Phys. Rev. D, 76,
104015 (2007). [DOI], [arXiv:gr-qc/0606079].
|
| * | 715 | Sperhake, U., Berti, E. and Cardoso, V., “Numerical simulations of black-hole binaries and
gravitational wave emission”, C. R. Physique, 14, 306–317 (2013). [DOI], [arXiv:1107.2819
[gr-qc]].
|
| * | 716 | Sperhake, U., Berti, E., Cardoso, V. and Pretorius, F., “Universality, maximum radiation and
absorption in high-energy collisions of black holes with spin”, Phys. Rev. Lett., 111, 041101
(2013). [DOI], [arXiv:1211.6114 [gr-qc]].
|
| * | 717 | Sperhake, U., Berti, E., Cardoso, V., Pretorius, F. and Yunes, N., “Superkicks in
ultrarelativistic encounters of spinning black holes”, Phys. Rev. D, 83, 024037 (2011). [DOI],
[arXiv:1011.3281 [gr-qc]].
|
| * | 718 | Sperhake, U., Cardoso, V., Ott, C. D., Schnetter, E. and Witek, H., “Extreme black hole
simulations: collisions of unequal mass black holes and the point particle limit”, Phys. Rev. D,
84, 084038 (2011). [DOI], [arXiv:1105.5391 [gr-qc]].
|
| * | 719 | Sperhake, U., Cardoso, V., Pretorius, F., Berti, E. and Gonzalez, J. A., “The high-energy
collision of two black holes”, Phys. Rev. Lett., 101, 161101 (2008). [DOI], [arXiv:0806.1738
[gr-qc]].
|
| * | 720 | Sperhake, U., Cardoso, V., Pretorius, F., Berti, E., Hinderer, T. et al., “Cross section, final spin
and zoom-whirl behavior in high-energy black hole collisions”, Phys. Rev. Lett., 103, 131102
(2009). [DOI], [arXiv:0907.1252 [gr-qc]].
|
| * | 721 | Sperhake, U., Kelly, B., Laguna, P., Smith, K. L. and Schnetter, E., “Black-hole head-on
collisions and gravitational waves with fixed mesh-refinement and dynamic singularity
excision”, Phys. Rev. D, 71, 124042 (2005). [DOI], [gr-qc/0503071].
|
| * | 722 | Sperhake, U., Sjödin, K. R. P. and Vickers, J. A., “Dynamic cosmic strings. II. Numerical
evolution of excited cosmic strings”, Phys. Rev. D, 63, 024012 (2000). [DOI], [gr-qc/0003114].
|
| * | 723 | Sperhake, U., Smith, K. L., Kelly, B., Laguna, P. and Shoemaker, D., “Impact of densitized
lapse slicings on evolutions of a wobbling black hole”, Phys. Rev. D, 69, 024012 (2004). [DOI],
[gr-qc/0307015].
|
| * | 724 | Stark, R. F. and Piran, T., “Gravitational wave emission from rotating gravitational collapse”,
Phys. Rev. Lett., 55, 891–894 (1985). [DOI].
|
| * | 725 | Starobinsky, A. A., “Dynamics of Phase Transition in the New Inflationary Universe Scenario
and Generation of Perturbations”, Phys. Lett. B, 117, 175–178 (1982). [DOI].
|
| * | 726 | Steinhoff, J., “Canonical formulation of spin in general relativity”, Ann. Phys. (Berlin), 523,
296–353 (2011). [DOI], [arXiv:1106.4203 [gr-qc]].
|
| * | 727 | Stephani, H., Kramer, D., MacCallum, M. A. H., Hoenselaers, C. and Herlt, E., Exact Solutions
of Einstein’s Field Equations, Cambridge Monographs on Mathematical Physics, (Cambridge
University Press, Cambridge, 2003), 2nd edition. [ADS].
|
| * | 728 | Stergioulas, N., “Rotating Stars in Relativity”, Living Rev. Relativity, 6, lrr-2003-3 (2003).
[DOI], [ADS], [arXiv:gr-qc/0302034]. URL (accessed 2 April 2014): http://www.livingreviews.org/lrr-2003-3. |
| * | 729 | Stergioulas, N. and Friedman, John. L., “Comparing models of rapidly rotating relativistic
stars constructed by two numerical methods”, Astrophys. J., 444, 306 (1995). [DOI],
[arXiv:astro-ph/9411032 [astro-ph]].
|
| * | 730 | Stewart, J. M., “Solutions of the wave equation on a Schwarzschild spacetime with localized
energy”, Proc. R. Soc. London, Ser. A, 424, 239–244 (1989). [DOI].
|
| * | 731 | Strominger, A., “The dS/CFT correspondence”, J. High Energy Phys., 2001(10), 034 (2001).
[DOI], [arXiv:hep-th/0106113 [hep-th]].
|
| * | 732 | Sublette, C. et al., “Big Ivan, The Tsar Bomba (‘King of Bombs’): The World’s Largest Nuclear
Weapon”, The Nuclear Weapon Archive, (2007). URL (accessed 2 April 2014): http://nuclearweaponarchive.org/Russia/TsarBomba.html.
|
| * | 733 | Sundararajan, P. A., Khanna, G., Hughes, S. A. and Drasco, S., “Towards adiabatic waveforms
for inspiral into Kerr black holes: II. Dynamical sources and generic orbits”, Phys. Rev. D, 78,
024022 (2008). [DOI], [arXiv:0803.0317 [gr-qc]].
|
| * | 734 | Susskind, L., “The World as a hologram”, J. Math. Phys., 36, 6377–6396 (1995). [DOI],
[arXiv:hep-th/9409089].
|
| * | 735 | Szilagyi, B., Lindblom, L. and Scheel, M. A., “Simulations of Binary Black Hole Mergers Using
Spectral Methods”, Phys. Rev. D, 80, 124010 (2009). [DOI], [arXiv:0909.3557 [gr-qc]].
|
| * | 736 | ’t Hooft, G., “Graviton Dominance in Ultrahigh-Energy Scattering”, Phys. Lett. B, 198, 61–63
(1987). [DOI].
|
| * | 737 | ’t Hooft, G., “Dimensional reduction in quantum gravity”, in Ali, A., Ellis, J. and
Randjbar-Daemi, S., eds., Salamfestschrift, A Collection of Talks from the Conference on
Highlights of Particle and Condensed Matter Physics, ICTP, Trieste, Italy, 8 – 12 March 1993,
World Scientific Series in 20th Century Physics, 4, (World Scientific, Singapore; River Edge,
NJ, 1994). [arXiv:gr-qc/9310026].
|
| * | 738 | Takami, K., Rezzolla, L. and Baiotti, L., “Constraining the equation of state of neutron stars
from binary mergers”, Phys. Rev. Lett., 113, 091104 (2014). [DOI], [ADS], [arXiv:1403.5672
[gr-qc]].
|
| * | 739 | Taliotis, A., “Extra dimensions, black holes and fireballs at the LHC”, J. High Energy Phys.,
2013(05), 034 (2013). [DOI], [arXiv:1212.0528 [hep-th]].
|
| * | 740 | Tangherlini, F. R., “Schwarzschild field in n dimensions and the dimensionality of space
problem”, Nuovo Cim., 27, 636–651 (1963). [DOI].
|
| * | 741 | Taylor, M. E., Pseudodifferential Operators, Princeton Mathematical Series, 34, (Princeton University Press, Princeton, 1981). |
| * | 742 | Taylor, M. E., Pseudodifferential Operators and Nonlinear PDE, Progress in Mathematics, 100,
(Birkhäuser, Boston, 1991). [Google Books].
|
| * | 743 | Teukolsky, S. A., “Rotating black holes: separable wave equations for gravitational and
electromagnetic perturbations”, Phys. Rev. Lett., 29, 1114–1118 (1972). [DOI].
|
| * | 744 | Teukolsky, S. A., “Perturbations of a Rotating Black Hole. I. Fundamental Equations
for Gravitational, Electromagnetic, and Neutrino-Field Perturbations”, Astrophys. J., 185,
635–648 (1973). [DOI], [ADS].
|
| * | 745 | Teukolsky, S. A. and Press, W. H., “Perturbations of a rotating black hole. III - Interaction
of the hole with gravitational and electromagnet ic radiation”, Astrophys. J., 193, 443–461
(1974). [DOI].
|
| * | 746 | Thornburg, J., “Coordinates and boundary conditions for the general relativistic initial data
problem”, Class. Quantum Grav., 4, 1119–1131 (1987). [DOI].
|
| * | 747 | Thornburg, J., “Finding apparent horizons in numerical relativity”, Phys. Rev. D, 54,
4899–4918 (1996). [DOI], [gr-qc/9508014].
|
| * | 748 | Thornburg, J., “A fast apparent-horizon finder for 3-dimensional Cartesian grids in numerical
relativity”, Class. Quantum Grav., 21, 743–766 (2004). [DOI], [gr-qc/0306056].
|
| * | 749 | Thornburg, J., “Event and Apparent Horizon Finders in 3+1 Numerical Relativity”, Living
Rev. Relativity, 10, lrr-2007-3 (2007). [DOI], [ADS]. URL (accessed 2 April 2014): http://www.livingreviews.org/lrr-2007-3. |
| * | 750 | Thorne, K. S., “Nonspherical gravitational collapse: A short review”, in Klauder, J. R., ed.,
Magic Without Magic: John Archibald Wheeler. A Collection of Essays in Honor of his Sixtieth
Birthday, pp. 231–258, (W. H. Freeman, San Francisco, 1972). [ADS].
|
| * | 751 | Thorne, K. S., “The theory of gravitational radiation: An introductory review”, in Deruelle, N. and Piran, T., eds., Gravitational Radiation, NATO Advanced Study Institute, Centre de physique des Houches, 2 – 21 June 1982, pp. 1–57, (North-Holland; Elsevier, Amsterdam; New York, 1983). |
| * | 752 | Thorne, K. S., “Gravitational radiation”, in Hawking, S. W. and Israel, W., eds., Three
Hundred Years of Gravitation, pp. 330–458, (Cambridge University Press, Cambridge; New
York, 1987). [ADS], [Google Books].
|
| * | 753 | Thorne, K. S. and Campolattaro, A., “Non-Radial Pulsation of General-Relativistic Stellar
Models”, Astrophys. J., 149, 591 (1967). [DOI].
|
| * | 754 | “UBC Numerical Relativity: Software and Related”, project homepage, University of British
Columbia. URL (accessed 4 July 2014): http://laplace.physics.ubc.ca/Group/Software.html.
|
| * | 755 | Uchikata, N., Yoshida, S. and Futamase, T., “Scalar perturbations of Kerr-AdS black holes”,
Phys. Rev. D, 80, 084020 (2009). [DOI].
|
| * | 756 | Valiente Kroon, J. A., “On the nonexistence of conformally flat slices in the Kerr and other
stationary space-times”, Phys. Rev. Lett., 92, 041101 (2004). [DOI], [gr-qc/0310048].
|
| * | 757 | van der Schee, W., Romatschke, P. and Pratt, S., “A fully dynamical simulation of central
nuclear collisions”, Phys. Rev. Lett., 111, 222302 (2013). [DOI], [arXiv:1307.2539].
|
| * | 758 | van Meter, J. R., Baker, J. G., Koppitz, M. and Choi, D.-I., “How to move a black hole without
excision: gauge conditions for the numerical evolution of a moving puncture”, Phys. Rev. D,
73, 124011 (2006). [DOI], [gr-qc/0605030].
|
| * | 759 | Veneziano, G., “Construction of a Crossing-Simmetric, Regge-Behaved Amplitude for Linearly
Rising Trajectories”, Nuovo Cimento A, 57, 190–197 (1968). [DOI].
|
| * | 760 | Vines, J., Flanagan, E. E. and Hinderer, T., “Post-1-Newtonian tidal effects in the gravitational
waveform from binary inspirals”, Phys. Rev. D, 83, 084051 (2011). [DOI], [arXiv:1101.1673
[gr-qc]].
|
| * | 761 | “Virgo”, project homepage, European Gravitational Observatory (EGO). URL (accessed 2
April 2014): http://www.ego-gw.it.
|
| * | 762 | Vishveshwara, C. V., “Scattering of Gravitational Radiation by a Schwarzschild Black-hole”,
Nature, 227, 936–938 (1970). [DOI], [ADS].
|
| * | 763 | von Neumann, J. and Goldstine, H., “Numerical inverting of matrices of high order”, Bull.
Amer. Math. Soc., 53, 1021–1099 (1947). [DOI].
|
| * | 764 | Wainwright, C. L., Johnson, M. C., Aguirre, A. and Peiris, H. V., “Simulating the universe(s)
II: phenomenology of cosmic bubble collisions in full General Relativity”, J. Cosmol. Astropart.
Phys., 2014(10), 024 (2014). [DOI], [ADS], [arXiv:1407.2950 [hep-th]].
|
| * | 765 | Wainwright, C. L., Johnson, M. C., Peiris, H. V., Aguirre, A., Lehner, L. et al., “Simulating
the universe(s): from cosmic bubble collisions to cosmological observables with numerical
relativity”, J. Cosmol. Astropart. Phys., 2014(03), 030 (2014). [DOI], [arXiv:1312.1357 [hep-th]].
|
| * | 766 | Wald, R. M., General Relativity, (University of Chicago Press, Chicago, 1984). [ADS], [Google
Books].
|
| * | 767 | Wald, R. M., “Gravitational Collapse and Cosmic Censorship”, arXiv, e-print, (1997).
[arXiv:gr-qc/9710068].
|
| * | 768 | Wald, R. M, “Gravitational collapse and cosmic censorship”, in Iyer, B. R. and Bhawal,
B., eds., Black Holes, Gravitational Radiation and the Universe: Essays in Honour of C. V.
Vishveshwara, pp. 69–86, (Kluwer, Dordrecht; Boston, 1999). [ADS].
|
| * | 769 | Washik, M. C., Healy, J., Herrmann, F., Hinder, I., Shoemaker, D. M., Laguna, P. and
Matzner, R. A., “Binary Black Hole Encounters, Gravitational Bursts and Maximum Final
Spin”, Phys. Rev. Lett., 101, 061102 (2008). [DOI], [arXiv:0802.2520 [gr-qc]].
|
| * | 770 | Weber, J., “Detection and Generation of Gravitational Waves”, Phys. Rev., 117, 306–313
(1960). [DOI].
|
| * | 771 | Weber, J., “Observation of the Thermal Fluctuations of a Gravitational-Wave Detector”, Phys.
Rev. Lett., 17, 1228–1230 (1966). [DOI].
|
| * | 772 | Weber, J., “Gravitational Waves”, Phys. Today, 21, 34 (1968). [DOI].
|
| * | 773 | Weinberg, S., “Photons and Gravitons in S-Matrix Theory: Derivation of Charge Conservation
and Equality of Gravitational and Inertial Mass”, Phys. Rev., 135, B1049–B1056 (1964). [DOI],
[ADS].
|
| * | 774 | Weinberg, S., “Infrared photons and gravitons”, Phys. Rev., 140, B516–B524 (1965). [DOI].
|
| * | 775 | Weyhausen, A., Bernuzzi, S. and Hilditch, D., “Constraint damping for the Z4c formulation of
general relativity”, Phys. Rev. D, 85, 024038 (2012). [DOI], [arXiv:1107.5539 [gr-qc]].
|
| * | 776 | Weyl, H., “Zur Gravitationstheorie”, Ann. Phys. (Leipzig), 54, 117–145 (1917). [DOI].
|
| * | 777 | Wheeler, J. A., Geometrodynamics, Topics of Modern Physics, 1, (Academic Press, New York, 1962). |
| * | 778 | Wheeler, J. A., “Our Universe: the known and the unknown”, The Physics Teacher, 7, 24–34
(1969). [DOI], [ADS].
|
| * | 779 | Wheeler, J. A. and Ford, K., Geons, Black Holes, and Quantum Foam: A Life in Physics,
(Norton, New York, 1998). [ADS].
|
| * | 780 | Whiting, B. F., “Mode Stability of the Kerr Black Hole”, J. Math. Phys., 30, 1301 (1989).
[DOI].
|
| * | 781 | Wijers, R. A. M. J., “On the stellar luminosity of the Universe”, arXiv, e-print, (2005).
[arXiv:astro-ph/0506218 [astro-ph]].
|
| * | 782 | Will, C. M., Theory and Experiment in Gravitational Physics, (Cambridge University Press,
Cambridge; New York, 1993), 2nd edition. [ADS], [Google Books].
|
| * | 783 | Will, C. M., “The Confrontation between General Relativity and Experiment”, Living Rev.
Rel., 17, lrr-2014-4 (2014). [DOI], [ADS], [arXiv:1403.7377 [gr-qc]]. URL (accessed 5 August 2014):
http://www.livingreviews.org/lrr-2014-4. |
| * | 784 | Will, C. M. and Nordtvedt Jr, K. L., “Conservation Laws and Preferred Frames in Relativistic
Gravity. I. Preferred-Frame Theories and an Extended PPN Formalism”, Astrophys. J., 177,
757–774 (1972). [DOI], [ADS].
|
| * | 785 | Will, C. M. and Wiseman, A. G., “Gravitational radiation from compact binary systems:
Gravitational wave forms and energy loss to second postNewtonian order”, Phys. Rev. D, 54,
4813–4848 (1996). [DOI], [arXiv:gr-qc/9608012 [gr-qc]].
|
| * | 786 | Will, C. M. and Yunes, N., “Testing alternative theories of gravity using LISA”, Class.
Quantum Grav., 21, 4367 (2004). [DOI], [arXiv:gr-qc/0403100 [gr-qc]].
|
| * | 787 | Will, C. M. and Zaglauer, H. W., “Gravitational radiation, close binary systems, and the
Brans-Dicke theory of gravity”, Astrophys. J., 346, 366 (1989). [DOI].
|
| * | 788 | Winicour, J., “Characteristic Evolution and Matching”, Living Rev. Relativity, 15, lrr-2012-2
(2012). [DOI], [ADS]. URL (accessed 2 April 2014): http://www.livingreviews.org/lrr-2012-2. |
| * | 789 | Wiseman, T., “Static axisymmetric vacuum solutions and nonuniform black strings”, Class.
Quantum Grav., 20, 1137–1176 (2003). [DOI], [arXiv:hep-th/0209051 [hep-th]].
|
| * | 790 | Wiseman, T., “Numerical construction of static and stationary black holes”, arXiv, e-print,
(2011). [ADS], [arXiv:1107.5513 [gr-qc]].
|
| * | 791 | Witek, H., Black hole dynamics in generic spacetimes, Ph.D. thesis, (Universidade Técnica
de Lisboa / Instituto Superior Técnico, Lisbon, 2012). [ADS], [arXiv:1307.1145 [gr-qc]].
|
| * | 792 | Witek, H., “Lecture Notes: Numerical Relativity in higher dimensional spacetimes”, Int. J.
Mod. Phys. A, 28, 1340017 (2013). [DOI], [arXiv:1308.1686 [gr-qc]].
|
| * | 793 | Witek, H., Cardoso, V., Gualtieri, L., Herdeiro, C. A. R., Sperhake, U. and Zilhão, M., “Head-on
collisions of unequal mass black holes in D = 5 dimensions”, Phys. Rev. D, 83, 044017 (2011).
[DOI], [arXiv:1011.0742 [gr-qc]].
|
| * | 794 | Witek, H., Cardoso, V., Ishibashi, A. and Sperhake, U., “Superradiant instabilities in
astrophysical systems”, Phys. Rev. D, 87, 043513 (2013). [DOI], [arXiv:1212.0551 [gr-qc]].
|
| * | 795 | Witek, H., Hilditch, D. and Sperhake, U., “Stability of the puncture method with a generalized
BSSN formulation”, Phys. Rev. D, 83, 104041 (2011). [DOI], [arXiv:1011.4407 [gr-qc]].
|
| * | 796 | Witek, H., Okawa, H., Cardoso, V., Gualtieri, L., Herdeiro, C. A. R., Shibata, M., Sperhake, U. and
Zilhão, M., “Higher dimensional numerical relativity: Code comparison”, Phys. Rev. D, 90,
084014 (2014). [DOI], [ADS], [arXiv:1406.2703 [gr-qc]].
|
| * | 797 | Witek, H., Zilhão, M., Gualtieri, L., Cardoso, V., Herdeiro, C. A. R. et al., “Numerical relativity for
D dimensional space-times: head-on collisions of black holes and gravitational wave extraction”,
Phys. Rev. D, 82, 104014 (2010). [DOI], [arXiv:1006.3081 [gr-qc]].
|
| * | 798 | Witten, E., “Anti-de Sitter space and holography”, Adv. Theor. Math. Phys., 2, 253–291 (1998).
[arXiv:hep-th/9802150].
|
| * | 799 | Witten, E., “Anti-de Sitter space, thermal phase transition, and confinement in gauge theories”,
Adv. Theor. Math. Phys., 2, 505–532 (1998). [arXiv:hep-th/9803131].
|
| * | 800 | Wu, B. and Romatschke, P., “Shock wave collisions in AdS5: approximate numerical solutions”,
Int. J. Mod. Phys. C, 22, 1317–1342 (2011). [DOI], [arXiv:1108.3715 [hep-th]].
|
| * | 801 | Xue, B.-K., Garfinkle, D., Pretorius, F. and Steinhardt, P. J., “Nonperturbative analysis of
the evolution of cosmological perturbations through a nonsingular bounce”, Phys. Rev. D, 88,
083509 (2013). [DOI], [arXiv:1308.3044 [gr-qc]].
|
| * | 802 | Yang, S.-Q., Zhan, B.-F., Wang, Q.-L., Shao, C.-G., Tu, L.-C., Tan, W.-H. and Luo, J., “Test
of the Gravitational Inverse Square Law at Millimeter Ranges”, Phys. Rev. Lett., 108, 081101
(2012). [DOI], [ADS].
|
| * | 803 | Yo, H.-J., Baumgarte, T. W. and Shapiro, S. L., “Improved numerical stability of stationary
black hole evolution calculations”, Phys. Rev. D, 66, 084026 (2002). [DOI], [gr-qc/0209066].
|
| * | 804 | Yoo, C.-M., Abe, H., Nakao, K.-I. and Takamori, Y., “Black Hole Universe: Construction and
Analysis of Initial Data”, Phys. Rev. D, 86, 044027 (2012). [DOI], [arXiv:1204.2411 [gr-qc]].
|
| * | 805 | Yoo, C.-M., Okawa, H. and Nakao, K.-I., “Black Hole Universe: Time Evolution”, Phys. Rev.
Lett., 111, 161102 (2013). [DOI], [arXiv:1306.1389 [gr-qc]].
|
| * | 806 | York Jr, J. W., “Gravitational degrees of freedom and the initial-value problem”, Phys. Rev.
Lett., 26, 1656–1658 (1971). [DOI].
|
| * | 807 | York Jr, J. W., “Role of conformal three-geometry in the dynamics of gravitation”, Phys. Rev.
Lett., 28, 1082–1085 (1972). [DOI].
|
| * | 808 | York Jr, J. W., “Conformally invariant orthogonal decomposition of symmetric tensors on Riemannian manifolds and the initial-value problem of general relativity”, J. Math. Phys., 14, 456–464 (1973). |
| * | 809 | York Jr, J. W., “Covariant decompositions of symmetric tensors in the theory of gravitation”, Ann. Inst. Henri Poincare A, 21, 319–332 (1974). |
| * | 810 | York Jr, J. W., “Kinematics and Dynamics of General Relativity”, in Smarr, L. L., ed.,
Sources of Gravitational Radiation, Proceedings of the Battelle Seattle Workshop, July
24 – August 4, 1978, pp. 83–126, (Cambridge University Press, Cambridge; New York, 1979).
[ADS], [Google Books].
|
| * | 811 | York Jr, J. W., “Energy and Momentum of the Gravitational Field”, in Tipler, F. J., ed., Essays in General Relativity: A Festschrift for Abraham Taub, pp. 39–58, (Academic Press, New York, 1980). |
| * | 812 | York Jr, J. W., “The initial value problem and dynamics”, in Deruelle, N. and Piran, T., eds.,
Gravitational Radiation, NATO Advanced Study Institute, Centre de physique des Houches,
2 – 21 June 1982, pp. 175–201, (North-Holland; Elsevier, Amsterdam; New York, 1983). [ADS].
|
| * | 813 | York Jr, J. W., “Conformal ‘thin-sandwich’ data for the initial-value problem of general relativity”, Phys. Rev. Lett., 82, 1350–1353 (1999). |
| * | 814 | Yoshino, H., “Black hole initial data in Gauss-Bonnet gravity: Momentarily static case”, Phys.
Rev. D, 83, 104010 (2011). [DOI], [arXiv:1102.1810 [gr-qc]].
|
| * | 815 | Yoshino, H. and Kodama, H., “Bosenova collapse of axion cloud around a rotating black hole”,
Prog. Theor. Phys., 128, 153–190 (2012). [DOI], [arXiv:1203.5070 [gr-qc]].
|
| * | 816 | Yoshino, H. and Kodama, H., “Gravitational radiation from an axion cloud around a black
hole: Superradiant phase”, Progress of Theoretical and Experimental Physics, 2014(4), 043E02
(2013). [DOI], [arXiv:1312.2326 [gr-qc]].
|
| * | 817 | Yoshino, H. and Nambu, Y., “High-energy headon collisions of particles and hoop conjecture”,
Phys. Rev. D, 66, 065004 (2002). [DOI], [arXiv:gr-qc/0204060 [gr-qc]].
|
| * | 818 | Yoshino, H. and Nambu, Y., “Black hole formation in the grazing collision of high-energy
particles”, Phys. Rev. D, 67, 024009 (2003). [DOI], [arXiv:gr-qc/0209003 [gr-qc]].
|
| * | 819 | Yoshino, H. and Rychkov, V. S., “Improved analysis of black hole formation in high-energy
particle collisions”, Phys. Rev. D, 71, 104028 (2005). [DOI], [arXiv:hep-th/0503171 [hep-th]].
Erratum: 10.1103/PhysRevD.77.089905.
|
| * | 820 | Yoshino, H. and Shibata, M., “Higher-dimensional numerical relativity: Formulation and code
tests”, Phys. Rev. D, 80, 084025 (2009). [DOI], [arXiv:0907.2760 [gr-qc]].
|
| * | 821 | Yoshino, H. and Shibata, M., “Higher-Dimensional Numerical Relativity: Current Status”,
Prog. Theor. Phys. Suppl., 189, 269–310 (2011). [DOI].
|
| * | 822 | Yoshino, H., Shiromizu, T. and Shibata, M., “Close-limit analysis for head-on collision of two
black holes in higher dimensions: Brill-Lindquist initial data”, Phys. Rev. D, 72, 084020 (2005).
[DOI], [arXiv:gr-qc/0508063 [gr-qc]].
|
| * | 823 | Yoshino, H., Shiromizu, T. and Shibata, M., “Close-slow analysis for head-on collision of two
black holes in higher dimensions: Bowen-York initial data”, Phys. Rev. D, 74, 124022 (2006).
[DOI], [arXiv:gr-qc/0610110 [gr-qc]].
|
| * | 824 | Yunes, N., Pani, P. and Cardoso, V., “Gravitational Waves from Quasicircular Extreme
Mass-Ratio Inspirals as Probes of Scalar-Tensor Theories”, Phys. Rev. D, 85, 102003 (2012).
[DOI], [arXiv:1112.3351 [gr-qc]].
|
| * | 825 | Yunes, N. and Pretorius, F., “Fundamental Theoretical Bias in Gravitational Wave
Astrophysics and the Parameterized Post-Einsteinian Framework”, Phys. Rev. D, 80, 122003
(2009). [DOI], [arXiv:0909.3328 [gr-qc]].
|
| * | 826 | Yunes, N. and Siemens, X., “Gravitational-Wave Tests of General Relativity with
Ground-Based Detectors and Pulsar-Timing Arrays”, Living Rev. Relativity, 16, lrr-2013-9
(2013). [DOI], [ADS], [arXiv:1304.3473 [gr-qc]]. URL (accessed 2 April 2014): http://www.livingreviews.org/lrr-2013-9. |
| * | 827 | Zel’dovich, Y. B., “The Generation of Waves by a Rotating Body”, JETP Lett., 14, 180 (1971). |
| * | 828 | Zel’dovich, Y. B., “Amplification of cylindrical electromagnetic waves reflected from a rotating body”, Sov. Phys. JETP, 35, 1085 (1972). |
| * | 829 | Zerilli, F. J., “Effective potential for even parity Regge-Wheeler gravitational perturbation
equations”, Phys. Rev. Lett., 24, 737–738 (1970). [DOI].
|
| * | 830 | Zerilli, F. J., “Gravitational field of a particle falling in a schwarzschild geometry analyzed in
tensor harmonics”, Phys. Rev. D, 2, 2141–2160 (1970). [DOI].
|
| * | 831 | Zerilli, F. J., “Perturbation analysis for gravitational and electromagnetic radiation in a
Reissner-Nordström geometry”, Phys. Rev. D, 9, 860–868 (1974). [DOI].
|
| * | 832 | Zhang, F., Brink, J., Szilagyi, B. and Lovelace, G., “A geometrically motivated coordinate
system for exploring spacetime dynamics in numerical-relativity simulations using a
quasi-Kinnersley tetrad”, Phys. Rev. D, 86, 084020 (2012). [DOI], [arXiv:1208.0630 [gr-qc]].
|
| * | 833 | Zhang, F., Zimmerman, A., Nichols, D. A., Chen, Y., Lovelace, G., Matthews, K. D., Owen,
R. and Thorne, K. S., “Visualizing Spacetime Curvature via Frame-Drag Vortexes and Tidal
Tendexes. II. Stationary Black Holes”, Phys. Rev. D, 86, 084049 (2012). [DOI], [arXiv:1208.3034
[gr-qc]].
|
| * | 834 | Zhao, X. and Mathews, G. J., “Effects of structure formation on the expansion rate of the
Universe: An estimate from numerical simulations”, Phys. Rev. D, 83, 023524 (2011). [DOI],
[arXiv:0912.4750 [astro-ph.CO]].
|
| * | 835 | Zilhão, M., New frontiers in Numerical Relativity, Ph.D. thesis, (University of Aveiro, Aveiro,
Portugal, 2012). [ADS], [arXiv:1301.1509 [gr-qc]].
|
| * | 836 | Zilhão, M., Ansorg, M., Cardoso, V., Gualtieri, L., Herdeiro, C. A. R., Sperhake, U. and Witek,
H., “Higher-dimensional puncture initial data”, Phys. Rev. D, 84, 084039 (2011). [DOI],
[arXiv:1109.2149 [gr-qc]].
|
| * | 837 | Zilhão, M., Cardoso, V., Gualtieri, L., Herdeiro, C. A. R., Sperhake, U. and Witek, H., “Dynamics
of black holes in de Sitter spacetimes”, Phys. Rev. D, 85, 104039 (2012). [DOI], [arXiv:1204.2019
[gr-qc]].
|
| * | 838 | Zilhão, M., Cardoso, V., Herdeiro, C. A. R., Lehner, L. and Sperhake, U., “Collisions of charged
black holes”, Phys. Rev. D, 85, 124062 (2012). [DOI], [arXiv:1205.1063 [gr-qc]].
|
| * | 839 | Zilhão, M., Cardoso, V., Herdeiro, C. A. R., Lehner, L. and Sperhake, U., “Collisions of oppositely
charged black holes”, Phys. Rev. D, 89, 044008 (2014). [DOI], [arXiv:1311.6483 [gr-qc]].
|
| * | 840 | Zilhão, M. and Löffler, F., “An Introduction to the Einstein Toolkit”, Int. J. Mod. Phys. A,
28, 1340014 (2013). [DOI], [arXiv:1305.5299 [gr-qc]].
|
| * | 841 | Zilhão, M., Witek, H., Sperhake, U., Cardoso, V., Gualtieri, L., Herdeiro, C. A. R. and Nerozzi, A.,
“Numerical relativity for D dimensional axially symmetric space-times: Formalism and code
tests”, Phys. Rev. D, 81, 084052 (2010). [DOI], [ADS], [arXiv:1001.2302 [gr-qc]].
|
| * | 842 | Zink, B., Korobkin, O., Schnetter, E. and Stergioulas, N., “On the frequency band of the f-mode
CFS instability”, Phys. Rev. D, 81, 084055 (2010). [DOI], [arXiv:1003.0779 [astro-ph.SR]].
|
| * | 843 | Zouros, T. J. M. and Eardley, D. M., “Instabilities of massive scalar perturbations of a rotating
black hole”, Annals Phys., 118, 139–155 (1979). [DOI].
|
| * | 844 | Zwiebach, B., “Curvature Squared Terms and String Theories”, Phys. Lett. B, 156, 315 (1985).
[DOI].
|