% $PublicationNumber:lrr-2007-3$
% $BibSchema:new$
@article{Abrahams92b,
author = {Abrahams, A.M. and Evans, C.R.},
format = {print},
journal = {Phys. Rev. D},
keywords = {Apparent horizons, Axisymmetric black holes, Black holes, Gravitational collapse, Maximal slicing, Numerical relativity},
pages = {R4117--R4121},
title = {Trapping a Geon: Black Hole Formation by an Imploding Gravitational Wave},
volume = {46},
year = {1992}
}
@article{Abrahams92c,
author = {Abrahams, A.M. and Heiderich, K.H. and Shapiro, S.L. and Teukolsky, S.A.},
format = {print},
journal = {Phys. Rev. D},
keywords = {Apparent horizons, Axisymmetric black holes, Black holes, Brill waves, Cosmic censorship, Curvature, Hoop conjecture, Multi black hole spacetimes, Numerical relativity, Prolate collapse},
pages = {2452--2463},
title = {Vacuum initial data, singularities, and cosmic censorship},
volume = {46},
year = {1992}
}
@article{Abrahams94a,
author = {Abrahams, A.M. and Cook, G.B. and Shapiro, S.L. and Teukolsky, S.A.},
format = {print},
journal = {Phys. Rev. D},
keywords = {Apparent horizons, Angular momentum, Axial symmetry, Axisymmetric black holes, Black hole formation, Black holes, Collisionless matter, Distorted black holes, Event horizons, Finite difference methods, Gravitational collapse, Kerr black holes, Numerical relativity, Partial differential equations, Prolate collapse, Rotating black holes},
pages = {5153--5164},
title = {Solving Einstein's Equations for Rotating Spacetimes: Evolution of Relativistic Star Clusters},
volume = {49},
year = {1994}
}
@article{Alcubierre98b,
author = {Alcubierre, M. and Brandt, S. and Br{\"u}gmann, B. and Gundlach, C. and Mass{\'o}, J. and Seidel, E. and Walker, P.},
cited = {09 January 2006},
format = {print},
journal = {Class. Quantum Grav.},
keywords = {Apparent horizons, Axial symmetry, Axisymmetric black holes, Black holes, Distorted black holes, Finite difference methods, Minimization, Kerr black holes, Multi black hole solutions, Numerical methods, Numerical relativity, Ordinary differential equations, Spectral methods},
onlineversion = {http://arXiv.org/abs/gr-qc/9809004},
pages = {2159--2190},
title = {Test-beds and applications for apparent horizon finders in numerical relativity},
volume = {17},
year = {2000}
}
@article{Alcubierre2003:pre-ISCO-coalescence-times,
author = {Alcubierre, M. and Br\"ugmann, B. and Diener, P. and Guzm\'an, F.S. and Hawke, I. and Hawley, S. and Herrmann, F. and Koppitz, M. and Pollney, D. and Seidel, E. and Thornburg, J.},
cited = {09 January 2006},
format = {print},
id = {044004},
journal = {Phys. Rev. D},
keywords = {Apparent horizons, Black hole angular momentum, Black hole collisions, Black hole formation, Black holes, Distorted black holes, Event horizons, Excision, Finite difference methods, Innermost stable circular orbits, Multi black hole spacetimes, Numerical methods, Numerical relativity, Partial differential equations, Rotating black holes, Smarr formula, Vacuum Einstein equations},
onlineversion = {http://arXiv.org/abs/gr-qc/0411149},
title = {Dynamical evolution of quasi-circular binary black hole data},
volume = {72},
year = {2005}
}
@misc{Andersson-Metzger-2007:conditions-for-MOTS-to-intersect,
author = {Andersson, L. and Metzger, J.},
format = {personal communication},
keywords = {Apparent horizons, Trapped surfaces},
note = {Personal communication from Lars Andersson to Bela Szil\'{a}gyi},
year = {2007}
}
@article{Anninos94e,
author = {Anninos, P. and Daues, G. and Mass{\'o}, J. and Seidel, E. and Suen, W.-M.},
format = {print},
journal = {Phys. Rev. D},
keywords = {Apparent horizons, Black holes, Boundary conditions, Excision, Numerical relativity},
pages = {5562--5578},
title = {Horizon boundary conditions for black hole spacetimes},
volume = {51},
year = {1995}
}
@article{Anninos94f,
author = {Anninos, P. and Bernstein, D. and Brandt, S. and Libson, J. and Mass{\'o}, J. and Seidel, E. and Smarr, L.L. and Suen, W.-M. and Walker, P.},
cited = {09 January 2006},
format = {print},
journal = {Phys. Rev. Lett.},
keywords = {Apparent horizons, Black holes, Distorted black holes, Event horizons, Multi black hole spacetimes, Null surfaces},
onlineversion = {http://arXiv.org/abs/gr-qc/9403011},
pages = {630--633},
title = {Dynamics of Apparent and Event Horizons},
volume = {74},
year = {1995}
}
@article{Anninos98b,
author = {Anninos, P. and Camarda, K. and Libson, J. and Mass{\'o}, J. and Seidel, E. and Suen, W.-M.},
format = {print},
id = {024003},
journal = {Phys. Rev. D},
keywords = {Apparent horizons, Axisymmetric black holes, Black holes, Distorted black holes, Kerr black holes, Minimization, Multi black hole spacetimes, Numerical methods, Numerical relativity, Schwarzschild solution, Spectral methods},
pages = {1--12},
title = {Finding apparent horizons in dynamic 3D numerical spacetimes},
volume = {58},
year = {1998}
}
@article{Ansorg:2003br,
author = {Ansorg, M. and Kleinw\"achter, A. and Meinel, R.},
cited = {09 January 2006},
format = {print},
journal = {Astron. Astrophys.},
keywords = {Axial symmetry, Boundary value problems, Nonlinear algebraic equations, Numerical methods, Numerical relativity, Relativistic fluids, Rotating stars, Spectral methods, Stationary solutions},
onlineversion = {http://arXiv.org/abs/astro-ph/0301173},
pages = {711--721},
title = {Highly accurate calculation of rotating neutron stars: Detailed description of the numerical methods},
volume = {405},
year = {2003}
}
@article{Ansorg:2004ds,
author = {Ansorg, M. and Br\"ugmann, B. and Tichy, W.},
cited = {09 January 2006},
format = {print},
id = {064011},
journal = {Phys. Rev. D},
keywords = {Boundary conditions, Boundary value problems, Elliptic equations, Linear equations, Nonlinear algebraic equations, Multi black hole solutions, Nonlinear equations, Numerical methods, Numerical relativity, Spectral methods},
onlineversion = {http://arXiv.org/abs/gr-qc/0404056},
pages = {1--13},
title = {Single-domain spectral method for black hole puncture data},
volume = {70},
year = {2004}
}
@article{Ansorg:2005bp,
author = {Ansorg, M.},
cited = {30 January 2007},
format = {print},
id = {024018},
journal = {Phys. Rev. D},
keywords = {Boundary conditions, Boundary value problems, Elliptic equations, Linear equations, Nonlinear algebraic equations, Multi black hole solutions, Numerical methods, Numerical relativity, Spectral methods},
onlineversion = {http://arxiv.org/abs/gr-qc/0505059},
pages = {1--10},
title = {A double-domain spectral method for black hole excision data},
volume = {72},
year = {2005}
}
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cited = {09 January 2006},
format = {print},
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journal = {Phys. Rev. D},
keywords = {Axial symmetry, Black holes, Boundary value problems, Event horizons, Linear equations, Nonlinear algebraic equations, Numerical methods, Numerical relativity, Relativistic fluids, Rotating black holes, Spectral methods, Stationary solutions},
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title = {Black holes surrounded by uniformly rotating rings},
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year = {2005}
}
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format = {print},
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publisher = {Wiley},
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@book{Ascher-Mattheij-Russel-1988,
address = {Englewood Cliffs, U.S.A.},
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format = {print},
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@article{Ashtekar98a,
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cited = {09 January 2006},
format = {print},
journal = {Class. Quantum Grav.},
keywords = {Boundary conditions, Dynamical horizons, Event horizons, Horizons, Null surfaces, Quasi-local black holes, Three-manifolds, Trapping horizons},
onlineversion = {http://arXiv.org/abs/gr-qc/9812065},
pages = {L1--L7},
title = {Isolated horizons: a generalization of black hole mechanics},
volume = {16},
year = {1999}
}
@article{Ashtekar-etal-2002-dynamical-horizons,
author = {Ashtekar, A. and Krishnan, B.},
cited = {09 January 2006},
format = {print},
id = {261101},
journal = {Phys. Rev. Lett.},
keywords = {Black holes, Constraint equations, Dynamical horizons, Event horizons, Hamiltonian constraint, Horizons, Killing field, Killing horizons, Null surfaces, Quasi-local black holes, Three-manifolds, Trapped surfaces, Trapping horizons},
onlineversion = {http://arXiv.org/abs/gr-qc/0207080},
pages = {1--4},
title = {Dynamical Horizons: Energy, Angular Momentum, Fluxes, and Balance Laws},
volume = {89},
year = {2002}
}
@article{Ashtekar03a,
author = {Ashtekar, A. and Krishnan, B.},
cited = {09 January 2006},
format = {print},
id = {104030},
journal = {Phys. Rev. D},
keywords = {Black holes, Constraint equations, Dynamical horizons, Event horizons, Hamiltonian constraint, Horizons, Killing field, Killing horizons, Null surfaces, Quasi-local black holes, Three-manifolds, Trapped surfaces, Trapping horizons},
onlineversion = {http://arXiv.org/abs/gr-qc/0308033},
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title = {Dynamical horizons and their properties},
volume = {68},
year = {2003}
}
@article{Ashtekar05,
author = {Ashtekar, A. and Galloway, G.},
cited = {09 January 2006},
format = {print},
journal = {Adv. Theor. Math. Phys.},
keywords = {Apparent horizons, Area increase law, Black holes, Dynamical horizons, Event horizons, Horizons, Isolated horizons, Killing field, Null surfaces, Three-manifolds, Trapped surfaces, Trapping horizons},
onlineversion = {http://arXiv.org/abs/gr-qc/0503109},
pages = {1--30},
title = {Some uniqueness results for dynamical horizons},
volume = {9},
year = {2005}
}
@article{Ashtekar:2004cn,
author = {Ashtekar, A. and Krishnan, B.},
cited = {09 January 2006},
format = {electronic},
id = {lrr-2004-10},
journal = {Living Rev. Relativity},
keywords = {Black holes, Constraint equations, Dynamical horizons, Event horizons, Hamiltonian constraint, Horizons, Killing field, Killing horizons, Null surfaces, Quasi-local black holes, Three-manifolds, Trapped surfaces, Trapping horizons},
pages = {10},
title = {Isolated and Dynamical Horizons and Their Applications},
url = {http://www.livingreviews.org/lrr-2004-10},
volume = {7},
year = {2004}
}
@article{Baiotti04,
author = {Baiotti, L. and Hawke, I. and Montero, P.J. and L{\"o}ffler, F. and Rezzolla, L. and Stergioulas, N. and Font, J.A. and Seidel, E.},
cited = {09 January 2006},
format = {print},
id = {024035},
journal = {Phys. Rev. D},
keywords = {Angular momentum, Apparent horizons, Black hole formation, Black holes, Computational fluid dynamics, Constraints, Distorted black holes, Event horizons, Excision, Finite difference methods, Finite volume methods, Gravitational collapse, Hamiltonian constraint, Horizons, Instability, Mass formula, Numerical methods, Numerical relativity, Relativistic fluid dynamics, Relativistic hydrodynamics, Rotating black holes, Rotating stars, Smarr formula, Trapped surfaces},
onlineversion = {http://arXiv.org/abs/gr-qc/0403029},
title = {Three-dimensional relativistic simulations of rotating neutron star collapse to a Kerr black hole},
volume = {71},
year = {2005}
}
@misc{Bartnik-proof:mean-curvature-flow-cant-move-through-AH,
author = {Bartnik, R.},
format = {personal communication},
keywords = {Apparent horizons, Inverse mean curvature flow, Ricci flow},
note = {Personal communication from Robert Bartnik to Carsten Gundlach}
}
@article{Baumgarte96,
author = {Baumgarte, T.W. and Cook, G.B. and Scheel, M.A. and Shapiro, S.L. and Teukolsky, S.A.},
cited = {09 January 2006},
format = {print},
journal = {Phys. Rev. D},
keywords = {Apparent horizons, Black holes, Minimization, Numerical methods, Numerical relativity, Spectral methods},
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volume = {54},
year = {1996}
}
@article{Baumgarte:2002jm,
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cited = {09 January 2006},
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format = {print},
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keywords = {Apparent horizons, Black holes, Event horizons, Finite difference methods, Numerical methods, Numerical relativity, Spectral methods},
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title = {Numerical relativity and compact binaries},
volume = {376},
year = {2003}
}
@techreport{Bernstein-1993:mean-curvature-flow,
address = {Urbana-Champaign, U.S.A.},
author = {Bernstein, D.},
format = {print},
keywords = {Apparent horizons, Finite difference methods, Inverse mean curvature flow, Numerical methods, Numerical relativity, Ricci flow},
month = {November},
publisher = {National Center for Supercomputing Applications},
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year = {1993}
}
@article{Bishop82,
author = {Bishop, N.T.},
format = {print},
journal = {Gen. Relativ. Gravit.},
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}
@article{Bishop84,
author = {Bishop, N.T.},
format = {print},
journal = {Gen. Relativ. Gravit.},
keywords = {Apparent horizons, Black holes, Horizons, Multi black hole solutions, Numerical relativity, Ordinary differential equations},
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@inproceedings{Bonazzola89,
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format = {print},
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keywords = {Apparent horizons, Axisymmetric black holes, Black holes, Boundary value problems, Horizons, Maximal hypersurfaces, Multi black hole solutions, Numerical relativity, Ordinary differential equations},
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year = {1974}
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@online{carpet-author-and-web-site,
author = {Schnetter, E.},
cited = {09 January 2006},
format = {project homepage},
keywords = {Numerical methods, Partial differential equations},
publisher = {Center for Computation and Technology, Louisiana State University},
title = {CarpetCode: A mesh refinement driver for Cactus},
url = {http://www.carpetcode.org}
}
@thesis{Caveny-2002,
address = {Austin, U.S.A.},
author = {Caveny, S.A.},
format = {phd},
keywords = {Apparent horizons, Black hole collisions, Black holes, Distorted black holes, Event horizons, Finite difference methods, Multi black hole spacetimes, Numerical methods, Numerical relativity, Topology change},
school = {University of Texas at Austin},
title = {Tracking Black Holes in Numerical Relativity: Foundations and Applications},
year = {2002}
}
@article{Caveny-Anderson-Matzner-2003a,
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keywords = {Black hole collisions, Black holes, Distorted black holes, Event horizons, Finite difference methods, Multi black hole spacetimes, Numerical methods, Numerical relativity, Topology change},
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pages = {104009},
title = {Tracking Black Holes in Numerical Relativity},
volume = {68},
year = {2003}
}
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cited = {09 January 2006},
format = {print},
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keywords = {Black hole collisions, Black holes, Critical phenomena, Distorted black holes, Event horizons, Finite difference methods, Multi black hole spacetimes, Numerical methods, Numerical relativity, Topology change},
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pages = {104003-1--13},
title = {Adaptive event horizon tracking and critical phenomena in binary black hole coalescence},
volume = {68},
year = {2003}
}
@thesis{Choptuik86,
address = {Vancouver, Canada},
author = {Choptuik, M.W.},
format = {phd},
keywords = {Apparent horizons, Boundary conditions, Finite difference methods, Initial boundary value problem, Mass functions, Numerical methods, Numerical relativity, Partial differential equations, Scalar fields, Spherical symmetry},
school = {University of British Columbia},
title = {A Study of Numerical Techniques for Radiative Problems in General Relativity},
year = {1986}
}
@inproceedings{Choptuik89,
address = {Cambridge, U.K.; New York, U.S.A.},
author = {Choptuik, M.W.},
booktitle = {Frontiers in Numerical Relativity},
conference = {Proceedings of the International Workshop on Numerical Relativity, University of Illinois at Urbana-Champaign (Urbana-Champaign, Illinois, USA), May 9\,--\,13, 1988},
editor = {Evans, C.R. and Finn, L.S. and Hobill, D.W.},
format = {print},
keywords = {Apparent horizons, Boundary conditions, Finite difference methods, Initial boundary value problem, Mass functions, Numerical methods, Numerical relativity, Partial differential equations, Scalar fields, Spherical symmetry},
pages = {206--221},
publisher = {Cambridge University Press},
title = {Experiences with an Adaptive Mesh Refinement Algorithm in Numerical Relativity},
year = {1989}
}
@article{Chrusciel-Galloway-1998:non-differentiable-horizons,
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cited = {09 January 2006},
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journal = {Commun. Math. Phys.},
keywords = {Event horizons, Horizon geometry},
onlineversion = {http://arXiv.org/abs/gr-qc/9611032},
pages = {449--470},
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volume = {193},
year = {1998}
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@thesis{Cook90,
address = {Chapel Hill, U.S.A.},
author = {Cook, G.B.},
format = {phd},
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school = {University of North Carolina at Chapel Hill},
title = {Initial Data for the Two-Body Problem of General Relativity},
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cited = {09 January 2006},
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format = {print},
journal = {ACM Trans. Math. Software},
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onlineversion = {http://www.cise.ufl.edu/~davis/},
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cited = {09 January 2006},
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journal = {ACM Trans. Math. Software},
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note = {TR-02-002},
onlineversion = {http://www.cise.ufl.edu/~davis/},
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author = {Diener, P.},
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format = {phd},
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school = {University of Texas at Austin},
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journal = {Phys. Rev. D},
keywords = {Apparent horizons, Black hole formation, Black holes, Collisionless matter, Dust, Elliptic equations, Finite difference methods, Gravitational collapse, Prolate collapse},
pages = {3072--3076},
title = {Gravitational Collapse of Marginally Bound Spheroids: Initial Conditions},
volume = {12},
year = {1975}
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address = {Princeton, U.S.A.},
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format = {phd},
keywords = {ADM formalism, Apparent horizons, Asymptotically flat data, Axisymmetric black holes, Black hole collisions, Black holes, Boundary value problems, Elliptic equations, Finite difference methods, Foliations, Instability, Maximal hypersurfaces, Maximal slicing, Multi black hole spacetimes, Numerical methods, Numerical relativity, Ordinary differential equations, Partial differential equations},
school = {Princeton University},
title = {The numerical evolution of the collision of two black holes},
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keywords = {Apparent horizons, Axisymmetric black holes, Black holes, Brill waves, Finite difference methods, Mass formula, Maximal slicing, Numerical methods, Numerical relativity, Partial differential equations, Quasi-local mass, Scalar curvature},
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publisher = {SIAM},
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keywords = {Finite difference methods, Numerical methods, Ordinary differential equations},
onlineversion = {http://www.netlib.org/odepack/index.html},
pages = {55--64},
publisher = {North-Holland},
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keywords = {Finite difference methods, Numerical methods, Ordinary differential equations},
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volume = {49},
year = {1994}
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@thesis{Huq96,
address = {Austin, U.S.A.},
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format = {phd},
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school = {The University of Texas at Austin},
title = {Apparent Horizon Location in Numerical Spacetimes},
year = {1996}
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keywords = {Axial symmetry, Boundary value problems, Brill waves, Constraint equations, Numerical methods, Numerical relativity, Rotating black holes, Spectral methods},
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year = {2000}
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author = {Kidder, L.E. and Scheel, M.A. and Teukolsky, S.A. and Cook, G.B.},
conference = {Miniprogram on Colliding Black Holes: Mathematical Issues in Numerical Relativity, held at the Institute for Theoretical Physics, UC at Santa Barbara, 10\,--\,28 January 2000},
format = {conference paper},
keywords = {Black holes, Boundary conditions, Hyperbolic partial differential equations, Initial boundary value problem, Numerical methods, Numerical relativity, Spectral methods},
title = {Spectral Evolution of Einstein's Equations},
year = {2000}
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volume = {38},
year = {1997}
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id = {044005},
journal = {Phys. Rev. D},
keywords = {Black hole collisions, Event horizons, Multi black hole spacetimes, Numerical relativity, Topology change},
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cited = {09 January 2006},
format = {institutional homepage},
keywords = {Black hole collisions, Event horizons, Multi black hole spacetimes, Numerical relativity, Topology change},
publisher = {Pittsburgh Supercomputing Center},
title = {Bagels Form When Black Holes Collide},
url = {http://www.psc.edu/research/graphics/gallery/winicour.html}
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keywords = {Apparent horizons, Black holes, Distorted black holes, Event horizons, Kerr black holes, Multi black hole spacetimes, Null surfaces, Numerical methods, Numerical relativity, Rotating black holes, Schwarzschild solution},
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title = {Event horizons in numerical relativity: Methods and tests},
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address = {Singapore; River Edge, U.S.A.},
author = {Libson, J. and Mass{\'o}, J. and Seidel, E. and Suen, W.-M.},
booktitle = {The Seventh Marcel Grossmann Meeting: On recent developments in theoretical and experimental general relativity, gravitation, and relativistic field theories},
conference = {Proceedings of the meeting held at Stanford University, July 24\,--\,30, 1994},
editor = {Jantzen, R.T. and Keiser, G.M.},
format = {print},
keywords = {Apparent horizons, Numerical methods, Numerical relativity, Spectral methods},
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@misc{Lin-Novak-2006:LORENE-AHfinder,
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@misc{Madderom-1984:ILUCG,
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keywords = {Apparent horizons, Black hole formation, Collisionless matter, Dust, Gravitational collapse, Maximal slicing, Numerical relativity, Spherical symmetry},
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year = {1997}
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cited = {09 January 2006},
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keywords = {Apparent horizons, Elliptic equations, Linear equations, Nonlinear algebraic equations, Numerical methods, Numerical relativity},
onlineversion = {http://arXiv.org/abs/gr-qc/0306056},
pages = {743--766},
title = {A fast apparent horizon finder for three-dimensional Cartesian grids in numerical relativity},
volume = {21},
year = {2004}
}
@article{Tod91,
author = {Tod, K.P.},
format = {print},
journal = {Class. Quantum Grav.},
keywords = {Apparent horizons, Inverse mean curvature flow, Ricci flow, Trapped surfaces},
pages = {L115--L118},
title = {Looking for marginally trapped surfaces},
volume = {8},
year = {1991}
}
@book{Trottenberg-Oosterlee-Schueller-2001:multigrid,
address = {San Diego, U.S.A.},
author = {Trottenberg, U. and Oosterlee, C.W. and Sch\"{u}ller, A.},
format = {print},
keywords = {Elliptic equations, Linear equations, Numerical methods},
publisher = {Academic Press},
title = {Multigrid},
year = {2001}
}
@online{UMFPACK-author-and-web-site,
author = {Davis, T.A.},
cited = {6 January 2007},
format = {project homepage},
keywords = {Linear equations, Numerical methods},
publisher = {University of Florida (CISE)},
title = {UMFPACK: unsymmetric multifrontal sparse LU factorization package},
url = {http://www.cise.ufl.edu/research/sparse/umfpack/}
}
@book{Wald84,
address = {Chicago, U.S.A.},
author = {Wald, R.M.},
format = {print},
keywords = {ADM formalism},
publisher = {University of Chicago Press},
title = {General Relativity},
year = {1984}
}
@article{Wald91,
author = {Wald, R.M. and Iyer, V.},
format = {print},
journal = {Phys. Rev. D},
keywords = {Black holes, Cosmic censorship, Foliations, Naked singularities, Schwarzschild solution, Spherical symmetry, Trapped surfaces},
pages = {R3719--R3722},
title = {Trapped surfaces in the Schwarzschild geometry and cosmic censorship},
volume = {44},
year = {1991}
}
@thesis{Walker98a,
address = {Urbana, U.S.A.},
author = {Walker, P.},
format = {phd},
keywords = {Apparent horizons, Axial symmetry, Axisymmetric black holes, Distorted black holes, Event horizons, Excision, Finite difference methods, Hyperbolic partial differential equations, Multi black hole spacetimes, Null surfaces, Numerical methods, Numerical relativity, Rotating black holes, Spherical symmetry},
school = {University of Illinois at Urbana-Champaign},
title = {Horizons, Hyperbolic Systems, and Inner Boundary Conditions in Numerical Relativity},
year = {1998}
}
@inproceedings{York79,
address = {Cambridge, U.K.; New York, U.S.A.},
author = {York Jr, J.W.},
booktitle = {Sources of Gravitational Radiation},
conference = {Proceedings of the Battelle Seattle Workshop, July 24\,--\,August 4, 1978},
editor = {Smarr, L.L.},
format = {print},
keywords = {ADM formalism, Cauchy problem, Constraint equations},
pages = {83--126},
publisher = {Cambridge University Press},
title = {Kinematics and Dynamics of General Relativity},
year = {1979}
}
@inproceedings{York89,
address = {Cambridge, U.K.; New York, U.S.A.},
author = {York Jr, J.W.},
booktitle = {Frontiers in Numerical Relativity},
conference = {Proceedings of the International Workshop on Numerical Relativity, University of Illinois at Urbana-Champaign, U.S.A., May 9\,--\,13, 1988},
editor = {Evans, C.R. and Finn, L.S. and Hobill, D.W.},
format = {print},
keywords = {ADM formalism, Apparent horizons, Cauchy problem, Constraint equations},
pages = {89--109},
publisher = {Cambridge University Press},
title = {Initial Data for Collisions of Black Holes and Other Gravitational Miscellany},
year = {1989}
}