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Aerodynamics / Vorticity / Vortex / Navier–Stokes equations / Taylor–Green vortex / Partial differential equation / Numerical methods for ordinary differential equations / Euler equations / Leonhard Euler / Fluid mechanics / Fluid dynamics / Dynamics


Physica D[removed]–1944 www.elsevier.com/locate/physd Blowup or no blowup? The interplay between theory and numerics Thomas Y. Hou a,∗ , Ruo Li b a Applied and Computational Math, 217-50, Caltech, Pasadena, CA
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Document Date: 2008-07-31 19:33:34

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City

Pasadena / /

Company

D.I. Meiron S.A. / Kerr / Cambridge University Press / Elsevier B.V. / The times / /

Country

United States / China / /

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Event

Business Partnership / /

Facility

Peking University / Institute of Computational Mathematics / /

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IndustryTerm

unstable singular solution / smooth solutions / self singular solution / singular solutions / approximate solution / energy spectrum / parallel processors / energy spectrum approaches / singular solution / energy spectra / numerical solution / energy / /

Organization

Cambridge University / Chinese Academy of Sciences / National Science Foundation / Center of High Performance Computing / Institute of Computational Mathematics / School of Mathematical Sciences / Peking University / Beijing / /

Person

Robert Kerr / Lin-Bo Zhang / Thomas Y. Hou / performed using T.Y. Hou / /

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Position

filament model / cpa / high-symmetry vortex filament model / Phys / Rt / Corresponding author / /

Product

Pentax K-x Digital Camera / /

ProgrammingLanguage

Fortran / /

ProvinceOrState

California / /

PublishedMedium

Physica D / /

TVStation

Kida / /

Technology

1944 256 parallel processors / fluid dynamics / simulation / /

URL

www.elsevier.com/locate/physd / /

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