Uniform Estimates for Metastable Transition Times in a Coupled Bistable System

Florent Barret (École Polytechnique)
Anton Bovier (Rheinische Friedrich-Wilhelms-Universität)
Sylvie Méléard (École Polytechnique)

Abstract


We consider a coupled bistable $N$-particle system on $\mathbb{R}^N$ driven by a Brownian noise, with a strong coupling corresponding to the synchronised regime. Our aim is to obtain sharp estimates on the metastable transition times between the two stable states, both for fixed $N$ and in the limit when $N$ tends to infinity, with error estimates uniform in $N$. These estimates are a main step towards a rigorous understanding of the metastable behavior of infinite dimensional systems, such as the stochastically perturbed Ginzburg-Landau equation. Our results are based on the potential theoretic approach to metastability.

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Pages: 323-345

Publication Date: April 9, 2010

DOI: 10.1214/EJP.v15-751

References

  1. F. Barret. Metastability: Application to a model of sharp asymptotics for capacities and exit/hitting times. Master thesis, ENS Cachan (2007). Math. Review number not available.
  2. N. Berglund, B. Fernandez, B. Gentz. Metastability in Interacting Nonlinear Stochastic Differential Equations I: From Weak Coupling to Synchronization. Nonlinearity 20(11), 2007, 2551-2581. Math. Review 2009a:60116
  3. N. Berglund, B. Fernandez, B. Gentz. Metastability in Interacting Nonlinear Stochastic Differential Equations II: Large-N Behavior. Nonlinearity, 20(11), 2007, 2583-2614. Math. Review 2009a:60117
  4. A. Bovier. Metastability, in Methods of Contemporary Statistical Mechanics (R. Kotecky, ed.), 177-221. Lecture Notes in Mathematics 1970. Springer, Berlin, 2009. Math. Review number not available.
  5. A. Bovier, M. Eckhoff, V. Gayrard, M. Klein. Metastability in reversible diffusion processes I. Sharp asymptotics for capacities and exit times. Journal of the European Mathematical Society 6(2), 2004, 399-424. Math. Review 2006b:82112
  6. B. Bianchi, A. Bovier, I. Ioffe. Sharp asymptotics for metastability in the Random Field Curie-Weiss model. Electr. J. Probab. 14 (2008), 1541--1603. Math. Review MR2525104
  7. S. Brassesco. Some results on small random perturbations of an infinite-dimensional dynamical system. Stochastic Process. Appl. 38 (1991), 33--53. Math. Review 92k:60125
  8. K.L. Chung, J.B. Walsh. Markov processes, Brownian motion, and time symmetry. Second edition. Springer, 2005. Math. Review 2006j:60003
  9. M.I. Freidlin, A.D. Wentzell. Random Perturbations of Dynamical Systems. Springer, 1984. Math. Review 99h:60128
  10. W.G. Faris, G. Jona-Lasinio. Large fluctuations for a nonlinear heat equation with noise. J. Phys. A 15 (1982), 3025--3055. Math. Review 84j:81073
  11. M. Fukushima, Y. Mashima, M. Takeda. Dirichlet forms and symmetric Markov processes. de Gruyter Studies in Mathematics 19. Walter de Gruyter & Co., Berlin, 1994. Math. Review 96f:60126
  12. D. Gilbarg, N.S. Trudinger. Elliptic partial differential equations of second order. Springer, 2001. Math. Review 2001k:35004
  13. R. Maier, D. Stein. Droplet nucleation and domain wall motion in a bounded interval. Phys. Rev. Lett. 87 (2001), 270601-1--270601-4. Math. Review number not available.
  14. F. Martinelli, E. Olivieri, E. Scoppola. Small random perturbations of finite- and infinite-dimensional dynamical systems: unpredictability of exit times. J. Statist. Phys. 55 (1989), 477--504. Math. Review 91f:60105
  15. E. Olivieri, M.E. Vares. Large deviations and metastability. Encyclopedia of Mathematics and its Applications. Cambridge University Press, 2005. Math. Review 2005k:60007
  16. M. Reed, B. Simon. Methods of modern mathematical physics: I Functional Analysis. Second edition. Academic Press, 1980. Math. Review 85e:46002
  17. E. Vanden-Eijnden, M.G. Westdickenberg. Rare events in stochastic partial differential equations on large spatial domains. J. Stat. Phys. 131 (2008), 1023--1038. Math. Review 2009d:82053
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