Frontiers in Numerical Relativity
Herausgeber: Evans, Charles R.; Hobill, David W.; Finn, Lee S.
Frontiers in Numerical Relativity
Herausgeber: Evans, Charles R.; Hobill, David W.; Finn, Lee S.
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This 1989 text will be of value to those who wish to understand developments in computer studies of general relativity at the time of publication.
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This 1989 text will be of value to those who wish to understand developments in computer studies of general relativity at the time of publication.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Cambridge University Press
- Seitenzahl: 450
- Erscheinungstermin: 11. Februar 2011
- Englisch
- Abmessung: 244mm x 170mm x 24mm
- Gewicht: 771g
- ISBN-13: 9780521115957
- ISBN-10: 0521115957
- Artikelnr.: 33612337
- Verlag: Cambridge University Press
- Seitenzahl: 450
- Erscheinungstermin: 11. Februar 2011
- Englisch
- Abmessung: 244mm x 170mm x 24mm
- Gewicht: 771g
- ISBN-13: 9780521115957
- ISBN-10: 0521115957
- Artikelnr.: 33612337
Preface; Participants; Introduction; 1. Supercomputing and numerical
relativity: a look at the past, present and future David W. Hobill and
Larry L. Smarr; 2. Computational relativity in two and three dimensions
Stuart L. Shapiro and Saul A. Teukolsky; 3. Slowly moving maximally charged
black holes Robert C. Ferrell and Douglas M. Eardley; 4. Kepler's third law
in general relativity Steven Detweiler; 5. Black hole spacetimes: testing
numerical relativity David H. Bernstein, David W. Hobill and Larry L.
Smarr; 6. Three dimensional initial data of numerical relativity Ken-ichi
Oohara and Takashi Nakamura; 7. Initial data for collisions of black holes
and other gravitational miscellany James W. York, Jr.; 8.
Analytic-numerical matching for gravitational waveform extraction Andrew M.
Abrahams; 9. Supernovae, gravitational radiation and the quadrupole formula
L. S. Finn; 10. Gravitational radiation from perturbations of stellar core
collapse models Edward Seidel and Thomas Moore; 11. General relativistic
implicit radiation hydrodynamics in polar sliced space-time Paul J.
Schinder; 12. General relativistic radiation hydrodynamics in spherically
symmetric spacetimes A. Mezzacappa and R. A. Matzner; 13. Constraint
preserving transport for magnetohydrodynamics John F. Hawley and Charles R.
Evans; 14. Enforcing the momentum constraints during axisymmetric spacelike
simulations Charles R. Evans; 15. Experiences with an adaptive mesh
refinement algorithm in numerical relativity Matthew W. Choptuik; 16. The
multigrid technique Gregory B. Cook; 17. Finite element methods in
numerical relativity P. J. Mann; 18. Pseudo-spectral methods applied to
gravitational collapse Silvano Bonazzola and Jean-Alain Marck; 19. Methods
in 3D numerical relativity Takashi Nakamura and Ken-ichi Oohara; 20.
Nonaxisymmetric rotating gravitational collapse and gravitational radiation
Richard F. Stark; 21. Nonaxisymmetric neutron star collisions: initial
results using smooth particle hydrodynamics Christopher S. Kochanek and
Charles R. Evans; 22. Relativistic hydrodynamics James R. Wilson and Grant
J. Mathews; 23. Computational dynamics of U(1) gauge strings: probability
of reconnection of cosmic strings Richard A. Matzner; 24. Dynamically
inhomogenous cosmic nucleosynthesis Hannu Kurki-Suonio; 25. Initial value
solutions in planar cosmologies Peter Anninos, Joan Centrella and Richard
Matzner; 26. An algorithmic overview of an Einstein solver Roger Ove; 27. A
PDE compiler for full-metric numerical relativity Jonathan Thornburg; 28.
Numerical evolution on null cones R. Gomez and J. Winicour; 29. Normal
modes coupled to gravitational waves in a relativistic star Yasufumi
Kojima; 30. Cosmic censorship and numerical relativity Dalia S. Goldwirth,
Amos Ori and Tsvi Piran.
relativity: a look at the past, present and future David W. Hobill and
Larry L. Smarr; 2. Computational relativity in two and three dimensions
Stuart L. Shapiro and Saul A. Teukolsky; 3. Slowly moving maximally charged
black holes Robert C. Ferrell and Douglas M. Eardley; 4. Kepler's third law
in general relativity Steven Detweiler; 5. Black hole spacetimes: testing
numerical relativity David H. Bernstein, David W. Hobill and Larry L.
Smarr; 6. Three dimensional initial data of numerical relativity Ken-ichi
Oohara and Takashi Nakamura; 7. Initial data for collisions of black holes
and other gravitational miscellany James W. York, Jr.; 8.
Analytic-numerical matching for gravitational waveform extraction Andrew M.
Abrahams; 9. Supernovae, gravitational radiation and the quadrupole formula
L. S. Finn; 10. Gravitational radiation from perturbations of stellar core
collapse models Edward Seidel and Thomas Moore; 11. General relativistic
implicit radiation hydrodynamics in polar sliced space-time Paul J.
Schinder; 12. General relativistic radiation hydrodynamics in spherically
symmetric spacetimes A. Mezzacappa and R. A. Matzner; 13. Constraint
preserving transport for magnetohydrodynamics John F. Hawley and Charles R.
Evans; 14. Enforcing the momentum constraints during axisymmetric spacelike
simulations Charles R. Evans; 15. Experiences with an adaptive mesh
refinement algorithm in numerical relativity Matthew W. Choptuik; 16. The
multigrid technique Gregory B. Cook; 17. Finite element methods in
numerical relativity P. J. Mann; 18. Pseudo-spectral methods applied to
gravitational collapse Silvano Bonazzola and Jean-Alain Marck; 19. Methods
in 3D numerical relativity Takashi Nakamura and Ken-ichi Oohara; 20.
Nonaxisymmetric rotating gravitational collapse and gravitational radiation
Richard F. Stark; 21. Nonaxisymmetric neutron star collisions: initial
results using smooth particle hydrodynamics Christopher S. Kochanek and
Charles R. Evans; 22. Relativistic hydrodynamics James R. Wilson and Grant
J. Mathews; 23. Computational dynamics of U(1) gauge strings: probability
of reconnection of cosmic strings Richard A. Matzner; 24. Dynamically
inhomogenous cosmic nucleosynthesis Hannu Kurki-Suonio; 25. Initial value
solutions in planar cosmologies Peter Anninos, Joan Centrella and Richard
Matzner; 26. An algorithmic overview of an Einstein solver Roger Ove; 27. A
PDE compiler for full-metric numerical relativity Jonathan Thornburg; 28.
Numerical evolution on null cones R. Gomez and J. Winicour; 29. Normal
modes coupled to gravitational waves in a relativistic star Yasufumi
Kojima; 30. Cosmic censorship and numerical relativity Dalia S. Goldwirth,
Amos Ori and Tsvi Piran.
Preface; Participants; Introduction; 1. Supercomputing and numerical
relativity: a look at the past, present and future David W. Hobill and
Larry L. Smarr; 2. Computational relativity in two and three dimensions
Stuart L. Shapiro and Saul A. Teukolsky; 3. Slowly moving maximally charged
black holes Robert C. Ferrell and Douglas M. Eardley; 4. Kepler's third law
in general relativity Steven Detweiler; 5. Black hole spacetimes: testing
numerical relativity David H. Bernstein, David W. Hobill and Larry L.
Smarr; 6. Three dimensional initial data of numerical relativity Ken-ichi
Oohara and Takashi Nakamura; 7. Initial data for collisions of black holes
and other gravitational miscellany James W. York, Jr.; 8.
Analytic-numerical matching for gravitational waveform extraction Andrew M.
Abrahams; 9. Supernovae, gravitational radiation and the quadrupole formula
L. S. Finn; 10. Gravitational radiation from perturbations of stellar core
collapse models Edward Seidel and Thomas Moore; 11. General relativistic
implicit radiation hydrodynamics in polar sliced space-time Paul J.
Schinder; 12. General relativistic radiation hydrodynamics in spherically
symmetric spacetimes A. Mezzacappa and R. A. Matzner; 13. Constraint
preserving transport for magnetohydrodynamics John F. Hawley and Charles R.
Evans; 14. Enforcing the momentum constraints during axisymmetric spacelike
simulations Charles R. Evans; 15. Experiences with an adaptive mesh
refinement algorithm in numerical relativity Matthew W. Choptuik; 16. The
multigrid technique Gregory B. Cook; 17. Finite element methods in
numerical relativity P. J. Mann; 18. Pseudo-spectral methods applied to
gravitational collapse Silvano Bonazzola and Jean-Alain Marck; 19. Methods
in 3D numerical relativity Takashi Nakamura and Ken-ichi Oohara; 20.
Nonaxisymmetric rotating gravitational collapse and gravitational radiation
Richard F. Stark; 21. Nonaxisymmetric neutron star collisions: initial
results using smooth particle hydrodynamics Christopher S. Kochanek and
Charles R. Evans; 22. Relativistic hydrodynamics James R. Wilson and Grant
J. Mathews; 23. Computational dynamics of U(1) gauge strings: probability
of reconnection of cosmic strings Richard A. Matzner; 24. Dynamically
inhomogenous cosmic nucleosynthesis Hannu Kurki-Suonio; 25. Initial value
solutions in planar cosmologies Peter Anninos, Joan Centrella and Richard
Matzner; 26. An algorithmic overview of an Einstein solver Roger Ove; 27. A
PDE compiler for full-metric numerical relativity Jonathan Thornburg; 28.
Numerical evolution on null cones R. Gomez and J. Winicour; 29. Normal
modes coupled to gravitational waves in a relativistic star Yasufumi
Kojima; 30. Cosmic censorship and numerical relativity Dalia S. Goldwirth,
Amos Ori and Tsvi Piran.
relativity: a look at the past, present and future David W. Hobill and
Larry L. Smarr; 2. Computational relativity in two and three dimensions
Stuart L. Shapiro and Saul A. Teukolsky; 3. Slowly moving maximally charged
black holes Robert C. Ferrell and Douglas M. Eardley; 4. Kepler's third law
in general relativity Steven Detweiler; 5. Black hole spacetimes: testing
numerical relativity David H. Bernstein, David W. Hobill and Larry L.
Smarr; 6. Three dimensional initial data of numerical relativity Ken-ichi
Oohara and Takashi Nakamura; 7. Initial data for collisions of black holes
and other gravitational miscellany James W. York, Jr.; 8.
Analytic-numerical matching for gravitational waveform extraction Andrew M.
Abrahams; 9. Supernovae, gravitational radiation and the quadrupole formula
L. S. Finn; 10. Gravitational radiation from perturbations of stellar core
collapse models Edward Seidel and Thomas Moore; 11. General relativistic
implicit radiation hydrodynamics in polar sliced space-time Paul J.
Schinder; 12. General relativistic radiation hydrodynamics in spherically
symmetric spacetimes A. Mezzacappa and R. A. Matzner; 13. Constraint
preserving transport for magnetohydrodynamics John F. Hawley and Charles R.
Evans; 14. Enforcing the momentum constraints during axisymmetric spacelike
simulations Charles R. Evans; 15. Experiences with an adaptive mesh
refinement algorithm in numerical relativity Matthew W. Choptuik; 16. The
multigrid technique Gregory B. Cook; 17. Finite element methods in
numerical relativity P. J. Mann; 18. Pseudo-spectral methods applied to
gravitational collapse Silvano Bonazzola and Jean-Alain Marck; 19. Methods
in 3D numerical relativity Takashi Nakamura and Ken-ichi Oohara; 20.
Nonaxisymmetric rotating gravitational collapse and gravitational radiation
Richard F. Stark; 21. Nonaxisymmetric neutron star collisions: initial
results using smooth particle hydrodynamics Christopher S. Kochanek and
Charles R. Evans; 22. Relativistic hydrodynamics James R. Wilson and Grant
J. Mathews; 23. Computational dynamics of U(1) gauge strings: probability
of reconnection of cosmic strings Richard A. Matzner; 24. Dynamically
inhomogenous cosmic nucleosynthesis Hannu Kurki-Suonio; 25. Initial value
solutions in planar cosmologies Peter Anninos, Joan Centrella and Richard
Matzner; 26. An algorithmic overview of an Einstein solver Roger Ove; 27. A
PDE compiler for full-metric numerical relativity Jonathan Thornburg; 28.
Numerical evolution on null cones R. Gomez and J. Winicour; 29. Normal
modes coupled to gravitational waves in a relativistic star Yasufumi
Kojima; 30. Cosmic censorship and numerical relativity Dalia S. Goldwirth,
Amos Ori and Tsvi Piran.