RIMS Kôkyûroku
No.1883
—¬‘Ì‚Æ‹C‘Ì‚Ì”Šw‰ðÍ
Mathematical Analysis in Fluid and Gas Dynamics
RIMS Œ¤‹†W‰ï•ñW
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2013/07/10`2013/07/12
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Takayuki Kobayashi
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–Ú@ŽŸ
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1. Diffusive relaxation limit in Besov spaces for damped compressible Euler equations (Mathematical Analysis in Fluid and Gas Dynamics) ---1
@@@@Department of Mathematics, Nanjing University of Aeronautics and Astronautics / ‹ãB‘åŠw”—ŠwŒ¤‹†‰@@@@Xu Jiang / 쓇 Gˆê@(Xu,Jiang / Kawashima,Shuichi)
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2. Asymptotic stability of stationary solutions for the non-isentropic Euler-Maxwell system (Mathematical Analysis in Fluid and Gas Dynamics) ---13
@@@@_ŒË‘åŠwŠCŽ–‰ÈŠwŒ¤‹†‰È / ‹ãB‘åŠw”—ŠwŒ¤‹†‰@@@@ã“c DŠ° / 쓇 Gˆê@(Ueda,Yoshihiro / Kawashima,Shuichi)
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3. STABILITY OF SOLITARY WAVES FOR THE COUPLED BBM EQUATIONS (Mathematical Analysis in Fluid and Gas Dynamics)----------------------21
@@@@Žº—–H‹Æ‘åŠwHŠw•”@@@‰Á“¡ ³˜a@(Kato,Masakazu)
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4. Uniquness of mild solutions bounded on the whole time axis to the Navier-Stokes equations (Mathematical Analysis in Fluid and Gas Dynamics)---33
@@@@MB‘åŠw—Šw•”@@@’J“à –õ@(Taniuchi,Yasushi)
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5. New approach to the Hadamard variational formula for the Green function of the Stokes equations (Mathematical Analysis in Fluid and Gas Dynamics)---49
@@@@‹Êì‘åŠwHŠw•”@@@‹‰z œ¨—‰À@(Ushikoshi,Erika)
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6. The Stokes semigroup on non-decaying spaces (Mathematical Analysis in Fluid and Gas Dynamics)------------------------------------60
@@@@“Œ‹ž‘åŠw”—‰ÈŠwŒ¤‹†‰È@@@ˆ¢•” Œ’@(Abe,Ken)
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7. On some decay properties of solutions for the Stokes equations with surface tension and gravity in the half space (Mathematical Analysis in Fluid and Gas Dynamics)---66
@@@@‘ˆî“c‘åŠwŠîŠ²—HŠwŒ¤‹†‰È”Šw‰ž—p”—êU / ‘ˆî“c‘åŠwŠîŠ²—HŠw•””Šw‰ÈE‘ˆî“c‘åŠw—HŠwp‰@‘‡Œ¤‹†Š@@@Ö“¡ •½˜a / ŽÄ“c —ÇO@(Saito,Hirokazu / Shibata,Yoshihiro)
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8. Free-boundary problem of the equations for flows of viscous heat-conducting and self-gravitating gas (Mathematical Analysis in Fluid and Gas Dynamics)---75
@@@@‹{è‘åŠwHŠw‹³ˆçŒ¤‹†•”@@@”~Œ´ Žç“¹@(Umehara,Morimichi)
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9. On an Application of Nash-Moser Theory to the Vacuum Boundary Problem of Gas Dynamics (Mathematical Analysis in Fluid and Gas Dynamics)---84
@@@@ŽRŒû‘åŠwHŠw•”@@@–q–ì “N@(Makino,Tetu)
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10. Numerical analysis of Io's atmosphere based on a model Boltzmann equation : Unsteady behavior during eclipse (Mathematical Analysis in Fluid and Gas Dynamics)---100
@@@@‹ž“s‘åŠwHŠwŒ¤‹†‰È‹@ŠB—HŠwêU@@@¬› ^Œá@(Kosuge,Shingo)
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11. Numerical analysis of moving boundary problems in rarefied gas dynamics (Mathematical Analysis in Fluid and Gas Dynamics)------113
@@@@‘åã‘åŠwŠî‘bHŠwŒ¤‹†‰È / ‹ž“s‘åŠwHŠwŒ¤‹†‰È@@@’Ò “O˜Y / Â–Ø ˆê¶@(Tsuji,Tetsuro / Aoki,Kazuo)
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12. Asymptotic stability for viscous conservation law on the half line and its application (Mathematical Analysis in Fluid and Gas Dynamics)---131
@@@@•xŽR‚“™ê–åŠwZ@@@‹´–{ ˆÉ“sŽq@(Hashimoto,Itsuko)
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13. LOCAL SOLUTIONS WITH POLYNOMIAL DECAY IN THE VELOCITY VARIABLES TO THE BOLTZMANN EQUATION FOR SOFT POTENTIALS (Mathematical Analysis in Fluid and Gas Dynamics)---148
@@@@‹ž“s‘åŠwlŠÔEŠÂ‹«ŠwŒ¤‹†‰È / DEPARTMENT OF MATHEMATICS, CITY UNIVERSITY OF HONG KONG@@@X–{ –F‘¥ / YANG TONG@(MORIMOTO,YOSHINORI / YANG,TONG)
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