Stellar Collapse - Research Scientist, National Center for Supercomputing Applications


^ Stellar Collapse

  1. Edward Seidel and Thomas Moore, "Gravitational Radiation from Realistic Relativistic Stars: Odd-Parity Fluid Perturbations", Physical Review D15, 35, 2287, (1987).

  2. Edward Seidel, Eric S. Myra, and Thomas Moore, "Gravitational Radiation from Type Stellar Collapse - Research Scientist, National Center for Supercomputing Applications II Supernovae: The Effect of the High Density Equation of State", Physical Review D15, 38, 2349, (1988).

  3. Edward Seidel and Thomas Moore, "Gravitational Radiation from Stellar Core Collapse", in Frontiers in Numerical Relativity, (C. Evans, L Stellar Collapse - Research Scientist, National Center for Supercomputing Applications. Finn, D. Hobill, eds.) Cambridge University Press, (1989).

  4. Edward Seidel, "Normal Mode Excitation from Stellar Collapse to a Black Hole: Odd- Parity Perturbations", Physical Review D15, 44, 950, (1991).

  5. Edward Seidel, "Normal Mode Excitation from Collapse to Stellar Collapse - Research Scientist, National Center for Supercomputing Applications Schwarzschild Black Holes", in Proceedings of the 6th Marcel Grossmann Meeting on General Relativity, (1993).
^ Mathematical Physics, Formalisms in Relativity

  1. Edward Seidel, "A Comment on the Eigenvalues of Spin-weighted Spheroidal Functions", Classical and Stellar Collapse - Research Scientist, National Center for Supercomputing Applications Quantum Gravity, 6, 1057, (1989).

  2. C. Bona, J. Massó, E. Seidel, J. Stela, "A Class of Hyperbolic Gauge Conditions", in Proceedings of the 7th Marcel Grossmann Meeting on General Relativity, (1995).

  3. C. Bona, J. Massó, E Stellar Collapse - Research Scientist, National Center for Supercomputing Applications. Seidel, J. Stela, "A New Formalism for Numerical Relativity", Physical Review Letters, 75, 600, (1995).

  4. C. Bona, J. Stela, J. Massó, E. Seidel, "Invariant Algebraic Slicing of the Spacetime", in the proceedings of the ERE Stellar Collapse - Research Scientist, National Center for Supercomputing Applications 94, Menorca, Spain (World Scientific, 1995).
^ Numerical Relativity Theory, Techniques

  1. Jayashree Balakrishna, Gregory Daues, Edward Seidel, Wai-Mo Suen, Malcolm Tobias, and Edward Wang, “Coordinate conditions in three-dimensional numerical relativity”, Classical Stellar Collapse - Research Scientist, National Center for Supercomputing Applications and Quantum Gravity, 13, L135-142, (1996).

  2. C. Bona, J. Massó, E. Seidel, and J. Stela, “First order hyperbolic formalism for Numerical Relativity”, Physical Review D15, 56, 3405-3415, (1997).

  3. Black Hole Grand Challenge Alliance (including E. Seidel and Stellar Collapse - Research Scientist, National Center for Supercomputing Applications many other authors), “Gravitational wave extraction and outer boundary conditions by perturbative matching”, Physical Review Letters, 80, 1812, (1998).

  4. C. Bona, J. Massó, E. Seidel, P. Walker, “Three Dimensional Numerical Relativity with a Hyperbolic Formulation Stellar Collapse - Research Scientist, National Center for Supercomputing Applications”, Physical Review D15, accepted, (1998).

  5. M. Alcubierre, S. Brandt, B. Brügmann, D. Holz, E. Seidel, R. Takahashi, and J. Thornburg, “Symmetry without Symmetry: Numerical Simulation of Axisymmetric Systems using Cartesian Grids”, Computer Physics Communications Stellar Collapse - Research Scientist, National Center for Supercomputing Applications, 124(2-3), 169-196, (2000).

  6. M. Alcubierre, G. Allen, B. Brügmann, T. Dramlitsch, J. A. Font, P. Papadopoulos, E. Seidel, N. Stergioulas, W.-M. Suen, R. Takahashi, M. Tobias, “Towards a Stable Numerical Evolution of Strongly Stellar Collapse - Research Scientist, National Center for Supercomputing Applications Gravitating Systems in General Relativity: The Treatments”, Physical Review D15, 62, 044034, (2000).

  7. M. Alcubierre, G. Allen, B. Brügmann, E. Seidel, W.-M. Suen, “Towards an understanding of the stability properties Stellar Collapse - Research Scientist, National Center for Supercomputing Applications of the 3+1 evolution equations in general relativity”, Physical Review D15, 62, 124011, (2000).

  8. M. Alcubierre, M. Bondarescu, and E. Seidel, “Isometric Embeddings of Black Hole Horizons in 3D Flat Space”, Class. Quant. Grav. 19, 375 (2002).
^ Review Articles Stellar Collapse - Research Scientist, National Center for Supercomputing Applications, Numerical Relativity Overviews, Lecture Series

  1. Edward Seidel and Wai-Mo Suen, "Numerical Relativity," International Journal of Modern Physics C, 5, 181-187, (1994). Also appeared in Computational Physics, (J. Potvin, ed.), World Scientific, (1994).

  2. Peter Anninos, Karen Camarda Stellar Collapse - Research Scientist, National Center for Supercomputing Applications, Joan Massó, Edward Seidel, Wai-Mo Suen, Malcolm Tobias, and John Towns "3D Numerical Relativity," in Proceedings of the 7th Marcel Grossmann Meeting on General Relativity, (1995).

  3. Edward Seidel, “Numerical Relativity and Stellar Collapse - Research Scientist, National Center for Supercomputing Applications Black Hole Collisions”, in Relativity and Scientific Computing, (F. Hehl, ed.), Springer-Verlag, (1996).

  4. Edward Seidel, “Numerical Relativity Workshop Summary”, Proceedings of GR14, Florence, (1996).

  5. Edward Seidel and Wai-Mo Suen, “Black Holes in Numerical Relativity Stellar Collapse - Research Scientist, National Center for Supercomputing Applications”, Relativistic Gravitation and Gravitational Radiation, (J.-A. Marck and J.-P. Lasota, eds.), p. 335-360, Cambridge University Press, Cambridge, (1997).

  6. Peter Anninos, Joan Massó, Edward Seidel, and Wai-Mo Suen, “Numerical Relativity of Black Holes Stellar Collapse - Research Scientist, National Center for Supercomputing Applications”, Physics World, 7, 1230, July, 1996.

  7. E. Seidel, “Numerical Relativity”, in Gravitation and Cosmology, (Dhurandhar and Padmanabhan, eds.), p. 125-144, Kluwer Academic, Dordrecht, (1997).

  8. E. Seidel, “New Developments in Numerical Relativity”, Acta Helvetica, 69, 454, (1996).

  9. E. Seidel, “Numerical Stellar Collapse - Research Scientist, National Center for Supercomputing Applications Relativity”, in Some Topics on General Relativity and Gravitational Radiation (Miralles, Morales, and Sáez, eds.), p. 71-85, Editions Frontieres, Paris, (1997).

  10. E. Seidel, “Numerical Approach to Black Holes”, in Black Holes: Theory Stellar Collapse - Research Scientist, National Center for Supercomputing Applications and Observation, F.W. Hehl, C. Kiefer, R. Metzler, eds., (Springer-Verlag, 1998).

  11. E. Seidel, “Numerical Relativity: Towards Simulations of 3D Black Hole Coalescence”, in Gravitation and Relativity: at the turn of the Stellar Collapse - Research Scientist, National Center for Supercomputing Applications Millenium, N. Dadhich and J.V. Narlikar, eds., Inter-University Centre for Astronomy and Astrophysics, Pune, gr-qc/9806088, (1998).

  12. E. Seidel and Wai-Mo Suen, “Numerical Relativity As A Tool For Computational Astrophysics”, Journal of Stellar Collapse - Research Scientist, National Center for Supercomputing Applications Computational and Applied Mathematics, 109(1-2), 493-525, (1999).

  13. E. Seidel, “The Synergy between Numerical and Perturbative Approaches to Black Holes”, to appear in “Black Holes, Gravitational Radiation, and the Universe”, p. 367-382, eds. Bala Iyer Stellar Collapse - Research Scientist, National Center for Supercomputing Applications and Biplab Bhawal (Kluwer, 1999).

  14. E. Seidel, “Numerical Relativity”, in Studies in High Energy Physics, Cosmology and Gravitation, IOP Publishing, (2000).

  15. E. Seidel, “Black Hole Coalescence and Mergers: Review, Status, and ``Where are we heading?”’ Prog Stellar Collapse - Research Scientist, National Center for Supercomputing Applications. Theor. Phyiscs Suppl., 136, 87, (2000).

  16. B. Brügmann and E. Seidel, Living Reviews Article, in preparation, (2000).

  17. E. Seidel, “Progress in Computing Binary Black Hole Mergers”, to appear in Gravitational Waves: A Challenge to Theoretical Stellar Collapse - Research Scientist, National Center for Supercomputing Applications Astrophysics, ICTP Lecture Notes Series, (2001).

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