No.1425
—ฌ‘ฬ‚ฦ‹C‘ฬ‚ฬ”Šw‰๐อ
Mathematical Analysis in Fluid and Gas Dynamics
Œค‹†W‰๏•๑W
 @
2004/07/07`2004/07/09
‰B‹@—วs
Yoshiyuki@Kagei
@
–ฺ@ŽŸ
@
1. A long wave approximation for capillary-gravity waves and an effect of the bottom (Mathematical Analysis in Fluid and Gas Dynamics)---1
@@@@“Œ‹žH‹ฦ‘ๅŠw—HŠwŒค‹†‰ศ”Šw๊U@@@ˆไŒ๛ ’B—Y@(Iguchi, Tatsuo)
@
2. Rotating Navier-Stokes Equations with Initial Data Nondecreasing at Infinity (Mathematical Analysis in Fluid and Gas Dynamics)---21
@@@@–kŠC“น‘ๅŠw—ŠwŒค‹†‰ศ”Šw๊U@@@Šฃ Ÿ–็@(Inui, Katsuya)
@
3. ON THE STOKES EQUATION WITH NEWMANN BOUNDARY CONDITION (Mathematical Analysis in Fluid and Gas Dynamics)-------------------------40
@@@@‘ˆ๎“c‘ๅŠw—HŠw•” / ร‰ช‘ๅŠwHŠw•”@@@Žฤ“c —วO / ด… ๎ไ@(Shibata, Yoshihiro / Shimizu, Senjo)
@
4. Stability of 1-dimensional stationary solution to the compressible Navier-Stokes equations on the half space (Mathematical Analysis in Fluid and Gas Dynamics)---54
@@@@‹ใB‘ๅŠw”—ŠwŒค‹†‰@@@@‰B‹ —วs@(Kagei, Yoshiyuki)
@
5. A double-exponentially growing solution of the two-dimensional ideal Boussinesq equations : its further evolution stages and response to disturbances (Mathematical Analysis in Fluid and Gas Dynamics)---65
@@@@‹ž“s‘ๅŠw—ŠwŒค‹†‰ศ / ‹ž“s‘ๅŠw—ŠwŒค‹†‰ศ / ‹ž“s‘ๅŠw—ŠwŒค‹†‰ศ / IBM“Œ‹žŠ๎‘bŒค‹†Š@@@“ก ’่‹` / ผ–{ „ / ŽR“c —ว“ง / ‹{‰บ ฎ@(Toh, Sadayoshi / Matsumoto, Takeshi / Yamada, Yoshiyuki / Miyashita, Hisashi)
@
6. About weak dissipations in Mathematicals models (Mathematical Analysis in Fluid and Gas Dynamics)--------------------------------78
@@@@Department of Research and Development, National Laboratory for Scientific Computation@@@Rivera, Jaime E. Munoz
@
7. ƒGƒlƒ‹ƒM[ŽUˆํ‚๐”บ‚ค‘J‰น‘ฌ—ฌ‚ษ‘ฮ‚ท‚้“๑ŽŸŒณŒล—L’l–โ‘่ (—ฌ‘ฬ‚ฦ‹C‘ฬ‚ฬ”Šw‰๐อ)------------------------------------------------------94
@@@@‘ๅใ‘ๅŠwƒŒ[ƒU[ƒGƒlƒ‹ƒM[ŠwŒค‹†ƒZƒ“ƒ^[@@@‘บใ ‹งŠŽ@(Murakami, Masakatsu)
@
8. Global Solutions of the Boltzmann Equation with the External Force (Mathematical Analysis in Fluid and Gas Dynamics)-------------98
@@@@‰ก•l‘—ง‘ๅŠwHŠwŒค‹†‰@ / /@@@‰LŽ” ณ“๑ / /@(Ukai, Seiji / Yang, Tong / Zhao, Huijiang)
@
9. Mode generating effect of the solutions to nonlinear Schrodinger equations (Mathematical Analysis in Fluid and Gas Dynamics)----113
@@@@‹{่‘ๅŠw‹ณˆ็Šw•”@@@–k ’ผ‘ื@(Kita, Naoyasu)
@
10. Dynamics of Turing patterns in cylindrical domains on 2D (Mathematical Analysis in Fluid and Gas Dynamics)---------------------122
@@@@‹ใB‘ๅŠw”—ŠwŒค‹†‰@@@@‰h Lˆ๊˜Y@(Ei, Shin-Ichiro)
@
11. Bifurcation analysis to Rayleigh-Benard convection at degenerate critical points (Mathematical Analysis in Fluid and Gas Dynamics)---130
@@@@‘ๅใ‘ๅŠwŠ๎‘bHŠwŒค‹†‰ศ@@@ฌ์ ’m”V@(Ogawa, Toshiyuki)
@
12. The Jeans instability for a one-dimensional model system of compressible viscous fluids (Mathematical Analysis in Fluid and Gas Dynamics)---140
@@@@‘ๅใ‘ๅŠw๎•๑‰ศŠwŒค‹†‰ศ@@@ŽR–{ ‹gF@(Yamamoto, Yoshitaka)
@
13. Large-time behavior of spherically symmetric flow for viscous heat-conductive gas (Mathematical Analysis in Fluid and Gas Dynamics)---150
@@@@“Œ‹žH‹ฦ‘ๅŠw๎•๑—HŠwŒค‹†‰ศ / “Œ‹žH‹ฦ‘ๅŠw๎•๑—HŠwŒค‹†‰ศ@@@’†‘บ “O / ผ”จ L–็@(Nakamura, Tohru / Nishibata, Shinya)
@