Dr. Hank Strauss


Courant Institute
New York University
New York NY 10012
email:

email: strauss@cims.nyu.edu
phone: 212-998-3268
fax: 212-995-4121

Preprint:

( in html )
  1. An Adaptive Finite Element Method for Magnetohydrodynamics by H. Strauss and D. Longcope.
  2. MHD Effects on Pellet Injection in Tokamaks by H. Strauss and W. Park.
Here are some pictures generated with a finite element MHD code:
  1. M3D Stellarator Simulations by H. Strauss et al.
  2. Finite Element Simulation of ITER VDEs and halo currents by H. Strauss et al.
  3. Nonlinear MHD in the Dag Confinement Configuration by H. Strauss and D. Weil.
  4. Finite Element Simulation of ELMs by H. Strauss.
  5. An Adaptive Finite Element Method for Magnetohydrodynamics; Poster Presented at Sherwood 99 Meeting by H. Strauss and D. W. Longcope.
  6. 3D MHD Simulations of Tokamak Pellet Injection and Disruptions Using MH3D++; Poster Presented at Sherwood 99 Meeting by H. Strauss and W. Park.
  7. Simulations of Spherical Tori and Compact Stellarators with M3D; Poster Presented at Sherwood 2000 Meeting by H. Strauss, W. Park, et al.
  8. Pellet Injection Simulation with MH3D++ Finite Element / Spectral MHD Code
  9. Stellarator Simulation with M3D Li-383

Preprints:

( in postscript/pdf )
  1. Nonlinear MHD in the DAG Confinement Configuration (pdf) by H. Strauss
  2. Nonlinear MHD Halo Current Simulations (pdf) by H. Strauss et al.
  3. Nonlinear MHD and Energetic Particle Modes in Stellarators (pdf) by H. Strauss, G. Y. Fu, W. Park, J. Breslau, and L.E. Sugiyama
  4. An Adaptive Mesh Method for MHD. (text - postscript) by H. Strauss and D. W. Longcope.
  5. An Adaptive Mesh Method for MHD. (figures - postscript) by H. Strauss and D. W. Longcope.
  6. Reduced MHD in Potential Magnetic Fields by H. Strauss. The latest version of Reduced MHD.
  7. MHD Effects on Pellet Injection in Tokamaks by H. Strauss and W. Park. -- text
  8. MHD Effects on Pellet Injection in Tokamaks -- figures
  9. Pellet Driven Disruptions in Tokamaks by H. Strauss and W. Park. -- text
  10. Pellet Driven Disruptions in Tokamaks -- figures

Research Interest:

Computational Magneto Fluid Dynamics. Finite Element Unstructured Mesh Methods. Parallel Computation. Applications to Magnetic Fusion, Space Physics, and Low Temperature Plasma.

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Last Modified March 16, 1996
© Copyright 1996 H. Strauss
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