The Einstein Toolkit has been used for various projects and benefited a large number of publications. Some of these publications have the Einstein Toolkit itself as topic, and some of these have dedicated pages here with contributing information and material.

Publications about the Einstein Toolkit

Note that some entries in the following list contain links to more information and material about the publication in question.

  1. Frank Löffler, Joshua Faber, Eloisa Bentivegna, Tanja Bode, Peter Diener, Roland Haas, Ian Hinder, Bruno C. Mundim, Christian D. Ott, Erik Schnetter, Gabrielle Allen, Manuela Campanelli, and Pablo Laguna. The Einstein Toolkit: A Community Computational Infrastructure for Relativistic Astrophysics. Classical and Quantum Gravity, 29(11):115001, 2012. (arXiv:1111.3344 [gr-qc]). Materials.
  2. Philipp Mösta, Bruno C. Mundim, Joshua A. Faber, Roland Haas1, Scott C. Noble, Tanja Bode, Frank Löffler, Christian D. Ott, Christian Reisswig, Erik Schnetter. GRHydro: A new open source general-relativistic magnetohydrodynamics code for the Einstein Toolkit. arXiv:1304.5544 [gr-qc]. Materials.

Grants benefiting from the Einstein Toolkit

This list can be found on a separate page.

Publications using the Einstein Toolkit (or CactusEinstein thorns)

  1. C. Gundlach. Understanding critical collapse of a scalar field. Phys. Rev. D, 55:695, 1997.
  2. C. Gundlach and J. Pullin. Instability of free evolution in double null coordinates. Class. Quantum Grav., 14:991, 1997.
  3. C. Gundlach. Nonspherical perturbations of critical collapse and cosmic censorship. Phys. Rev. D, 57:R7075, 1998.
  4. Carsten Gundlach. Critical phenomena in gravitational collapse. Adv. Theor. Math. Phys, 2:1, 1998.
  5. Carsten Gundlach. Angular momentum at the black hole threshold. Phys. Rev. D, 57:R7080, 1998.
  6. Carsten Gundlach. Nonspherical perturbations of critical collapse and cosmic censorship. 1998.
  7. C. Gundlach. Pseudo-spectral apparent horizon finders: An efficient new algorithm. Phys. Rev. D, 57:863–875, 1998.
  8. Edward Seidel. A numerical approach to black holes. In F. Hehl, editor, Bad Honnef Meeting on Black Holes. Springer-Verlag, 1998.
  9. Edward Seidel. Numerical relativity: Towards simulations of 3D black hole coalescence, 1998.
  10. Carles Bona, Joan Massó, Edward Seidel, and Paul Walker. Three dimensional numerical relativity with a hyperbolic formulation. 1998.
  11. Edward Seidel. Black Hole Coalescence and Mergers: Review, Status, and ``Where are We Heading?''. Prog. Theor. Phys. Suppl., 136:87–106, 1999.
  12. Edward Seidel. Technologies for Collaborative, Large Scale Simulation in Astrophysics and a General Toolkit for solving PDE's in Science and Engineering. In T. Plesser and P. Wittenburg, editors, Forschung und wissenschaftliches Rechnen. Max-Planck-Gesselschaft, München, 1999.
  13. Edward Seidel and Wai-Mo Suen. Numerical relativity as a tool for computational astrophysics. J. Comp. Appl. Math., 109:493, 1999.
  14. J. Massó, E. Seidel, Wai-Mo Suen, and P. Walker. Event horizons in numerical relativity. II. Analyzing the horizon. Phys. Rev. D, 59:064015, 1999.
  15. C. Gundlach and P. Walker. Causal differencing of flux-conservative equations applied to black hole spacetimes. Class. Quantum Grav., 16:991–1010, 1999.
  16. C. Gundlach. Critical phenomena in gravitational collapse. Living Rev. Rel., 2:4, 1999.
  17. J. Baker and R. Puzio. A new method for solving the initial value problem with application to multiple black holes. Phys. Rev. D, 59:044030, 1999.
  18. A. Arbona, C. Bona, J. Massó, and J. Stela. Robust evolution system for Numerical Relativity. Phys. Rev. D, 60:104014, 1999.
  19. M. Alcubierre, B. Brügmann, M. Miller, and W.-M. Suen. A conformal hyperbolic formulation of the Einstein equations. Phys. Rev. D, 60:064017, 1999.
  20. C. Gundlach and J.M. Martin-Garcia. Gauge-invariant and coordinate-independent perturbations of stellar collapse i: the interior. Phys. Rev. D, 61:08024, 2000.
  21. J. A. Font, M. Miller, W. M. Suen, and M. Tobias. Three-dimensional numerical general relativistic hydrodynamics: Formulations, methods, and code tests. Phys. Rev. D, 61:044011, 2000.
  22. P. Diener, N. Jansen, A. Khokhlov, and I. Novikov. Adaptive mesh refinement approach to construction of initial data for black hole collisions. Class. Quantum Grav., 17:435–451, 2000.
  23. B. Brügmann. Numerical relativity in 3+1 dimensions. Ann. Phys. (Leipzig), 9:227–246, 2000.
  24. Steve Brandt, Randall Correll, Roberto Gómez, Mijan Huq, Pablo Laguna, Luis Lehner, Pedro Marronetti, Richard A Matzner, David Neilsen, Jorge Pullin, Erik Schnetter, Deirdre Shoemaker, and Jeffrey Winicour. Grazing collisions of black holes via the excision of singularities. Physical Review Letters, 85:5496, 2000.
  25. S Brandt, J A Font, J M Ibanez, J Massó, and E Seidel. Numerical evolution of matter in dynamical axisymmetric black hole spacetimes. i. methods and tests. Computer Physics Communications, 124:169, 2000.
  26. J. Baker, S. R. Brandt, M. Campanelli, C. O. Lousto, E. Seidel, and R. Takahashi. Nonlinear and perturbative evolution of distorted black holes: Odd-parity modes. Phys. Rev. D, 62:127701, 2000.
  27. J. Baker, S. R. Brandt, M. Campanelli, C. O. Lousto, E. Seidel, and R. Takahashi. Nonlinear and perturbative evolution of distorted black holes: Odd-parity modes. Phys. Rev., D62:127701, 2000.
  28. John Baker, Bernd Brügmann, Manuela Campanelli, and Carlos O. Lousto. Gravitational waves from black hole collisions via an eclectic approach. Class. Quantum Grav., 17:L149–L156, 2000.
  29. J. Baker and M. Campanelli. Making use of geometrical invariants in black hole collisions. Phys. Rev. D, 62:127501, 2000.
  30. M. Alcubierre, G. Allen, B. Brügmann, E. Seidel, and W.-M. Suen. Towards an understanding of the stability properties of the 3+1 evolution equations in general relativity. Phys. Rev. D, 62:124011, 2000.
  31. Miguel Alcubierre, Bernd Brügmann, Thomas Dramlitsch, Jose A Font, Philippos Papadopoulos, Edward Seidel, Nikolaos Stergioulas, and Ryoji Takahashi. Towards a stable numerical evolution of strongly gravitating systems in general relativity: The conformal treatments. Physical Review D, 62:044034, 2000.
  32. M. Alcubierre, G. Allen, B. Brügmann, G. Lanfermann, E. Seidel, W.-M. Suen, and M. Tobias. Gravitational collapse of gravitational waves in 3D numerical relativity. Phys. Rev. D, 61:041501 (R), 2000.
  33. M. Alcubierre, S. Brandt, B. Brügmann, C. Gundlach, J. Massó, E. Seidel, and P. Walker. Test-beds and applications for apparent horizon finders in numerical relativity. Class. Quantum Grav., 17:2159–2190, 2000.
  34. Miguel Alcubierre, Gabrielle Allen, Bernd Brügmann, Gerd Lanfermann, Edward Seidel, Wai-Mo Suen, and Malcolm Tobias. Gravitational collapse of gravitational waves in 3d numerical relativity. Physical Review D, 61:041501, 2000.
  35. Nikolaos Stergioulas and Jose A Font. Nonlinear r-modes in rapidly rotating relativistic stars. Physical Review Letters, 86:1148, 2001.
  36. Mark Miller, Wai-Mo Suen, and Malcolm Tobias. The shapiro conjecture: Prompt or delayed collapse in the head-on collision of neutron stars?. Physical Review D, 63:121501, 2001.
  37. C O Lousto. Perturbative evolution of nonlinear initial data for binary black holes: Zerilli vs. teukolsky. Physical Review D, 63:047504, 2001.
  38. C. Gundlach and J.M. Martin-Garcia. Gauge-invariant and coordinate-independent perturbations of stellar collapse ii: matching to the exterior. Phys. Rev. D, 64:024012, 2001.
  39. J. Baker, B. Brügmann, Manuela Campanelli, C. O. Lousto, and R. Takahashi. Plunge waveforms from inspiralling binary black holes. Phys. Rev. Lett., 87:121103, 2001.
  40. 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. Int. J. Mod. Phys. D, 10(3):273–289, 2001. (doi:10.1142/S0218271801000834)
  41. Miguel Alcubierre, Bernd Brügmann, Denis Pollney, Edward Seidel, and Ryoji Takahashi. Black hole excision for dynamic black holes. Phys. Rev. D, 64:061501(R), 2001.
  42. M. Alcubierre, W. Benger, B. Brügmann, G. Lanfermann, L. Nerger, E. Seidel, and R. Takahashi. 3D Grazing Collision of Two Black Holes. Phys. Rev. Lett., 87:271103, 2001.
  43. M. Alcubierre and B. Brügmann. Simple excision of a black hole in 3+1 numerical relativity. Phys. Rev. D, 63:104006, 2001.
  44. Miguel Alcubierre, Bernd Brügmann, Denis Pollney, Edward Seidel, and Ryoji Takahashi. Black Hole Excision for Dynamic Black Holes. Physical Review D, 64:061501, 2001.
  45. D. N. Vulcanov. Doing numerical cosmology with the cactus code, 2002.
  46. Dumitru N Vulcanov and Miguel Alcubierre. Testing the Cactus Code on Exact Solutions of the Einstein Field Equations. International Journal of Modern Physics C, 13(6):805–822, 2002.
  47. Hisa aki Shinkai and Gen Yoneda. Re-formulating the einstein equations for stable numerical simulations: Formulation problem in numerical relativity, 2002.
  48. Sascha Husa. Problems and successes in the numerical approach to the conformal field equations. LECT.NOTES PHYS., 604:239, 2002.
  49. Philip Gressman, Lap-Ming Lin, Wai-Mo Suen, N Stergioulas, and John L Friedman. Nonlinear r-modes in neutron stars: Instability of an unstable mode. Physical Review D, 66:041303R, 2002.
  50. Jose. A. Font, Tom Goodale, Sai Iyer, Mark Miller, Luciano Rezzolla, Edward Seidel, Nikolaos Stergioulas, Wai-Mo Suen, and Malcolm Tobias. Three-dimensional general relativistic hydrodynamics. II. Long-term dynamics of single relativistic stars. Phys. Rev. D, 65:084024, 2002.
  51. M. Bondarescu, M. Alcubierre, and E. Seidel. Isometric embeddings of black hole horizons in three-dimensional flat space. Class. Quantum Grav., 19(2):375–392, January 2002.
  52. John Baker, Manuela Campanelli, and Carlos O. Lousto. The Lazarus project: A pragmatic approach to binary black hole evolutions. Phys. Rev. D, 65:044001, 2002.
  53. B. D. Baker. Binary black holes in quasi-stationary circular orbits. 2002.
  54. J Baker, M Campanelli, C O Lousto, and R Takahashi. Modeling gravitational radiation from coalescing binary black holes. Physical Review D, 65:124012, 2002.
  55. Miguel Alcubierre, F Siddhartha Guzmán, Tonatiuh Matos, Dario Nu nez, L Arturo Urena-Lopez, and Petra Wiederhold. Galactic collapse of scalar field dark matter. Class. Quantum Grav., 19(19):5017–5024, 2002.
  56. N. Stergioulas and I. Hawke. Equilibrium and pulsations of rotating stars in numerical relativity. In K. D. Kokkotas and N. Stergioulas, editors, Recent Developments in Gravity, Proceedings of the 10th Hellenic Relativity Conference, page 185, Singapore, 2003. World Scientific.
  57. Yosef Zlochower, Roberto Gómez, Sascha Husa, Luis Lehner, and Jeffrey Winicour. Mode coupling in the nonlinear response of black holes. Physical Review D, 68:084014, 2003.
  58. W Tichy, B Brügmann, M Campanelli, and P Diener. Binary black hole initial data for numerical general relativity based on post-newtonian data. Physical Review D, 67:064008, 2003.
  59. Bela Szilagyi and Jeffrey Winicour. Well-posed initial-boundary evolution in general relativity. Physical Review D, 68:041501, 2003.
  60. D Shoemaker, K Smith, U Sperhake, P Laguna, E Schnetter, and D Fiske. Moving black holes via singularity excision. Classical and Quantum Gravity, 20:3729, 2003.
  61. Erik Schnetter. Finding apparent horizons and other two-surfaces of constant expansion. Class. Quantum Grav., 20(22):4719–4737, 2003.
  62. Mark Miller and Wai-Mo Suen. Towards a realistic neutron star binary inspiral, 2003.
  63. Michael Koppitz, Miguel Alcubierre, Bernd Brügmann, Ian Hawke, Denis Pollney, and Edward Seidel. Numerical evolutions of quasi-stationary black hole initial data. 2003. in preparation.
  64. Sascha Husa and Christiane Lechner. Computer algebra applications for numerical relativity. 2003.
  65. J. A. Font. Numerical hydrodynamics in general relativity. Liv. Rev. Relativ., 6:4, 2003.
  66. Edwin Evans, A. Gopakumar, Philip Gressman, Sai Iyer, Mark Miller, Wai-Mo Suen, and Hui-Min Zhang. Head-on/Near Head-on Collisions of Neutron Stars With a Realistic EOS. Phys. Rev., D67:104001, 2003.
  67. P. Diener. A new general purpose event horizon finder for 3D numerical spacetimes. Class. Quantum Grav., 20(22):4901–4917, 2003.
  68. M W Choptuik, L Lehner, I Olabarrieta, R Petryk, F Pretorius, and H Villegas. Towards the final fate of an unstable black string. Physical Review D, 68:044001, 2003.
  69. S. Brandt, K. Camarda, E. Seidel, and R. Takahashi. Three dimensional distorted black holes. Class. Quantum Grav., 20:1–20, 2003.
  70. J. Baker, M. Campanelli, C. O. Lousto, and R. Takahashi. The final plunge of spinning binary black holes. 2003.
  71. Miguel Alcubierre, John Baker, Bernd Brügmann, Manuela Campanelli, Peter Diener, Frank Herrmann, Carlos O. Lousto, Denis Pollney, and Edward Seidel. Gravitational waveforms from black hole collisions. 2003. in preparation.
  72. Miguel Alcubierre, Alejandro Corichi, Jose A. Gonzalez, Dario Nu nez, and Marcelo Salgado. A hyperbolic slicing condition adapted to killing fields and densitized lapses. Class. Quantum Grav., 20(18):3951–3968, September 2003.
  73. M. Alcubierre, A. Corichi, J.A. Gonzalez, D. Nu nez, and M. Salgado. Hyperbolicity of the KST formulation of Einstein's equations coupled to a modified Bona-Masso slicing condition. Phys. Rev. D, 67:104021, 2003.
  74. Miguel Alcubierre, Bernd Brügmann, Peter Diener, Michael Koppitz, Denis Pollney, Edward Seidel, and Ryoji Takahashi. Gauge conditions for long-term numerical black hole evolutions without excision. Phys. Rev. D, 67:084023, 2003.
  75. L. Baiotti, I. Hawke, P. Montero, and L. Rezzolla. A new three-dimensional general-relativistic hydrodynamics code. In R. Capuzzo-Dolcetta, editor, Computational Astrophysics in Italy: Methods and Tools, volume 1, page 327, Trieste, 2003. Mem. Soc. Astron. It. Suppl.
  76. Manuel Tiglio, Luis Lehner, and David Neilsen. 3d simulations of einstein's equations: symmetric hyperbolicity, live gauges and dynamic control of the constraints. Physical Review D, 70:104018, 2004.
  77. Jonathan Thornburg. A Fast Apparent-Horizon Finder for 3-Dimensional Cartesian Grids in Numerical Relativity. Class. Quantum Grav., 21(2):743–766, January 2004. (doi:10.1088/0264-9381/21/2/026)
  78. U Sperhake, K L Smith, B Kelly, P Laguna, and D Shoemaker. Impact of densitized lapse slicings on evolutions of a wobbling black hole. Physical Review D, 69:024012, 2004.
  79. Erik Schnetter, Scott H. Hawley, and Ian Hawke. Evolutions in 3D numerical relativity using fixed mesh refinement. Class. Quantum Grav., 21(6):1465–1488, March 21 2004.
  80. Bernd Reimann and Bernd Brügmann. Late time analysis for maximal slicing of Reissner-Nordstrom puncture evolutions. Phys. Rev. D, 69:124009, 2004.
  81. Bernd Reimann and Bernd Brügmann. Maximal slicing for puncture evolutions of Schwarzschild and Reissner - Nordstrom black holes. Phys. Rev. D, 69:044006, 2004.
  82. Luis Lehner, David Neilsen, Oscar Reula, and Manuel Tiglio. The discrete energy method in numerical relativity: Towards long-term stability. Classical and Quantum Gravity, 21:5819, 2004.
  83. Sascha Husa, Ian Hinder, and Christiane Lechner. Kranc: a mathematica application to generate numerical codes for tensorial evolution equations. 2004.
  84. Carsten Gundlach and Jose M. Martin-Garcia. Symmetric hyperbolicity and consistent boundary conditions for second-order Einstein equations. Phys. Rev., D70:044032, 2004.
  85. C. Gundlach and J.M. Martin-Garcia. Symmetric hyperbolic form of systems of second-order evolution equations subject to constraints. Phys. Rev., D70:044031, 2004.
  86. David R Fiske. Toward making the constraint hypersurface an attractor in free evolution. Physical Review D, 69:047501, 2004.
  87. Harald Dimmelmeier, Jerome Novak, Jose A. Font, Jose M. Ibanez, and Ewald Müller. ``Mariage des Maillages'': A new numerical approach for 3D relativistic core collapse simulations. 2004.
  88. Peter Diener, Ryoji Takahashi, Denis Pollney, and Edward Seidel. The Evolution of 3D Rotating Distorted Black Holes. in preparation.
  89. C. Bona, T. Ledvinka, C. Palenzuela, and M. Zacek. A symmetry-breaking mechanism for the Z4 general-covariant evolution system. Phys. Rev. D, 69:064036, 2004.
  90. J. Baker, M. Campanelli, C. O. Lousto, and R. Takahashi. Coalescence remnant of spinning binary black holes. Phys. Rev., D69:027505, 2004.
  91. Maria Babiuc, Bela Szilagyi, and Jeffrey Winicour. Some mathematical problems in numerical relativity, 2004.
  92. Miguel Alcubierre, Gabrielle Allen, Thomas W. Baumgarte, Carles Bona, David Fiske, Tom Goodale, Francisco Siddhartha Guzmán, Ian Hawke, Scott Hawley, Sascha Husa, Michael Koppitz, Christiane Lechner, Lee Lindblom, Denis Pollney, David Rideout, Marcelo Salgado, Erik Schnetter, Edward Seidel, Hisa aki Shinkai, Deirdre Shoemaker, Bela Szilagyi, Ryoji Takahashi, and Jeffrey Winicour. Towards standard testbeds for numerical relativity. Class. Quantum Grav., 21(2):589–613, 2004.
  93. Miguel Alcubierre, Bernd Brügmann, Peter Diener, Frank Herrmann, Denis Pollney, Edward Seidel, and Ryoji Takahashi. Testing excision techniques for dynamical 3D black hole evolutions. submitted to Phys. Rev. D, 2004.
  94. Y. Zlochower, J.G. Baker, M. Campanelli, and C.O. Lousto. Accurate black hole evolutions by fourth-order numerical relativity. Physical Review D, 72:024021, May 2005.
  95. Burkhard Zink, Nikolaos Stergioulas, Ian Hawke, Christian D. Ott, Erik Schnetter, and Ewald Müller. Black hole formation through fragmentation of toroidal polytropes. 2005.
  96. Jonathan Thornburg. Event and apparent horizon finders for 3+1 numerical relativity, 2005.
  97. U Sperhake, B Kelly, P Laguna, K L Smith, and E Schnetter. Black hole head-on collisions and gravitational waves with fixed mesh-refinement and dynamic singularity excision. Physical Review D, 71:124042, 2005.
  98. Erik Schnetter, Frank Herrmann, and Denis Pollney. Horizon pretracking. Phys. Rev. D, 71:044033, 2005.
  99. Andrea Nerozzi, Marco Bruni, Virginia Re, and Lior M Burko. Towards a Wave-extraction Method for Numerical Relativity: IV. Testing the Quasi-Kinnersley Method in the Bondi-Sachs framework, 2005.
  100. Pedro Marronetti. Hamiltonian relaxation. Classical and Quantum Gravity, 22:2433, 2005. (doi:10.1088/0264-9381/22/12/009)
  101. Burkhard Zink, Nikolaos Stergioulas, Ian Hawke, Christian D. Ott, Erik Schnetter, and Ewald Müller. Black hole formation through fragmentation of toroidal polytropes. 2005.
  102. I. Hawke, F. Löffler, and A. Nerozzi. Excision methods for high resolution shock capturing schemes applied to general relativistic hydrodynamics. Phys. Rev. D, 71:104006, 2005.
  103. Mark D Hannam. Quasi-circular orbits of conformal thin-sandwich puncture binary black holes. Physical Review D, 72:044025, 2005.
  104. Edwin Evans, Sai Iyer, Erik Schnetter, Wai-Mo Suen, Jian Tao, Randy Wolfmeyer, and Hui-Min Zhang. Computational relativistic astrophysics with adaptive mesh refinement: Testbeds. Phys. Rev. D, 71:081301(R), 2005.
  105. Peter Diener, Ernst Nils Dorband, Erik Schnetter, and Manuel Tiglio. New, efficient, and accurate high order derivative and dissipation operators satisfying summation by parts, and applications in three-dimensional multi-block evolutions, 2005.
  106. J. Balakrishna, R. Bondarescu, G. Daues, F. S. Guzmán, and E. Seidel. Evolution of 3D Boson Stars with Waveform Extraction. 2005. (Submitted).
  107. Luca Baiotti, Ian Hawke, Luciano Rezzolla, and Erik Schnetter. Gravitational-wave emission from rotating gravitational collapse in three dimensions. Phys. Rev. Lett., 94:131101, 2005.
  108. Luca Baiotti, Ian Hawke, Pedro J. Montero, Frank Löffler, Luciano Rezzolla, Nikolaos Stergioulas, Jose A. Font, and Ed Seidel. Three-dimensional relativistic simulations of rotating neutron star collapse to a kerr black hole. Phys. Rev. D, 71:024035, 2005.
  109. Abhay Ashtekar and Gregory J Galloway. Some uniqueness results for dynamical horizons, 2005.
  110. Miguel Alcubierre, Bernd Brügmann, Peter Diener, Francisco Siddhartha Guzmán, Ian Hawke, Scott Hawley, Frank Herrmann, Michael Koppitz, Denis Pollney, Edward Seidel, and Jonathan Thornburg. Dynamical evolution of quasi-circular binary black hole data. Physical Review D, 72:044004 (14 pages), August 5 2005. (doi:10.1103/PhysRevD.72.044004)
  111. Miguel Alcubierre, Peter Diener, Francisco Siddhartha Guzmán, Scott Hawley, Michael Koppitz, Denis Pollney, and Edward Seidel. Shift Conditions for Orbiting Binaries in Numerical Relativity. in preparation, 2005.
  112. Ulrich Sperhake. Binary black-hole evolutions of excision and puncture data, 2006.
  113. Carlos F. Sopuerta, Ulrich Sperhake, and Pablo Laguna. Hydro-without-hydro framework for simulations of black hole-neutron star binaries. Classical and Quantum Gravity, 23:S579, 2006.
  114. Erik Schnetter, Badri Krishnan, and Florian Beyer. Introduction to dynamical horizons in numerical relativity. Physical Review D, 74:024028, 2006.
  115. Erik Schnetter, Peter Diener, Ernst Nils Dorband, and Manuel Tiglio. A multi-block infrastructure for three-dimensional time-dependent numerical relativity. Classical and Quantum Gravity, 23:S553, 2006.
  116. Frank Löffler, Luciano Rezzolla, and Marcus Ansorg. Numerical evolutions of a black hole-neutron star system in full general relativity, 2006.
  117. Ke-Jian Jin and Wai-Mo Suen. Critical phenomena in head-on collisions of neutron stars. 2006.
  118. F. Herrmann, D. Shoemaker, and P. Laguna. Unequal-mass binary black hole inspirals, 2006.
  119. Ernst Nils Dorband, Emanuele Berti, Peter Diener, Erik Schnetter, and Manuel Tiglio. A numerical study of the quasinormal mode excitation of kerr black holes. 2006.
  120. Peter Diener, Frank Herrmann, Denis Pollney, Erik Schnetter, Edward Seidel, Ryoji Takahashi, Jonathan Thornburg, and Jason Ventrella. Accurate evolution of orbiting binary black holes. Physical Review Letters, 96:121101, 2006.
  121. M. Campanelli, B. J. Kelly, and C. O. Lousto. The Lazarus Project. II. Spacelike extraction with the quasi-Kinnersley tetrad. Physical Review D, 73:064005, 2006.
  122. M. Campanelli, C. O. Lousto, P. Marronetti, and Y. Zlochower. Accurate Evolutions of Orbiting Black-Hole Binaries Without Excision. Physical Review Letters, 96:111101, 2006.
  123. M. Campanelli, C. O. Lousto, and Y. Zlochower. The last orbit of binary black holes. Physical Review D, 73:061501, January 2006.
  124. M. Campanelli, C. O. Lousto, and Y. Zlochower. Spinning-black-hole binaries: The orbital hang up. Physical Review D, 74:041501, April 2006.
  125. M. Campanelli, C. O. Lousto, and Y. Zlochower. Spin-orbit interactions in black-hole binaries. page 9, August 2006.
  126. Luca Baiotti and Luciano Rezzolla. Challenging the paradigm of singularity excision in gravitational collapse, 2006.
  127. Luca Baiotti, Roberto De Pietri, Gian Mario Manca, and Luciano Rezzolla. Accurate simulations of the dynamical barmode instability in full General Relativity, 2006.
  128. Birjoo Vaishnav, Ian Hinder, Frank Herrmann, and Deirdre Shoemaker. Matched Filtering of Numerical Relativity Templates of Spinning Binary Black Holes. Phys. Rev., D76:084020, 2007. (doi:10.1103/PhysRevD.76.084020)
  129. Ulrich Sperhake, Bernd Brugmann, Jose A. Gonzalez, Mark D. Hannam, and Sascha Husa. Head-On collisions of different initial data. 2007.
  130. David Rideout and Stefan Zohren. Counting Entropy in Causal Set Quantum Gravity. In R.T. Jantzen H. Kleinert and R. Ruffini, editors, In Proceedings of the Eleventh Marcel Grossmann Meeting on General Relativity, Singapore, 2007. World Scientific.
  131. Denis Pollney et al. Recoil velocities from equal-mass binary black-hole mergers: a systematic investigation of spin-orbit aligned configurations. Phys. Rev., D76:124002, 2007. (doi:10.1103/PhysRevD.76.124002)
  132. G. M. Manca, L. Baiotti, R. De Pietri, and L. Rezzolla. Dynamical non-axisymmetric instabilities in rotating relativistic stars, 2007.
  133. Bernard J. Kelly, Wolfgang Tichy, Manuela Campanelli, and Bernard F. Whiting. Black hole puncture initial data with realistic gravitational wave content. Phys. Rev., D76:024008, 2007. (doi:10.1103/PhysRevD.76.024008)
  134. Frank Herrmann, Ian Hinder, Deirdre M. Shoemaker, Pablo Laguna, and Richard A. Matzner. Binary Black Holes: Spin Dynamics and Gravitational Recoil. Phys. Rev., D76:084032, 2007. (doi:10.1103/PhysRevD.76.084032)
  135. Frank Herrmann, Ian Hinder, Deirdre Shoemaker, Pablo Laguna, and Richard A. Matzner. Gravitational recoil from spinning binary black hole mergers. 2007.
  136. J. A. Gonzalez, M. D. Hannam, U. Sperhake, B. Brugmann, and S. Husa. Supermassive kicks for spinning black holes. Phys. Rev. Lett., 98:231101, 2007. (doi:10.1103/PhysRevLett.98.231101)
  137. Joshua A. Faber, Thomas W. Baumgarte, Zachariah B. Etienne, Stuart L. Shapiro, and Keisuke Taniguchi. Relativistic hydrodynamics in the presence of puncture black holes. Phys. Rev., D76:104021, 2007. (doi:10.1103/PhysRevD.76.104021)
  138. Zachariah B. Etienne, Joshua A. Faber, Yuk Tung Liu, Stuart L. Shapiro, and Thomas W. Baumgarte. Filling the holes: Evolving excised binary black hole initial data with puncture techniques. Phys. Rev., D76:101503, 2007. (doi:10.1103/PhysRevD.76.101503)
  139. Johannes Brunnemann and David Rideout. Spectral Analysis of the Volume Operator in Loop Quantum Gravity. In R.T. Jantzen H. Kleinert and R. Ruffini, editors, In Proceedings of the Eleventh Marcel Grossmann Meeting on General Relativity, Singapore, 2007. World Scientific.
  140. J. David Brown et al. Excision without excision: the relativistic turducken. Phys. Rev., D76:081503, 2007. (doi:10.1103/PhysRevD.76.081503)
  141. Parameswaran Ajith et al. Phenomenological template family for black-hole coalescence waveforms. Class. Quant. Grav., 24:S689–S700, 2007. (doi:10.1088/0264-9381/24/19/S31)
  142. Burkhard Zink, Erik Schnetter, and Manuel Tiglio. Multi-patch methods in general relativistic astrophysics - I. Hydrodynamical flows on fixed backgrounds. Phys. Rev., D77:103015, 2008. (doi:10.1103/PhysRevD.77.103015)
  143. Ulrich Sperhake et al. Eccentric binary black-hole mergers: The transition from inspiral to plunge in general relativity. Phys. Rev., D78:064069, 2008. (doi:10.1103/PhysRevD.78.064069)
  144. Luciano Rezzolla et al. Spin Diagrams for Equal-Mass Black-Hole Binaries with Aligned Spins. Astrophys., J679:1422–1426, 2008.
  145. Yuk Tung Liu, Stuart L. Shapiro, Zachariah B. Etienne, and Keisuke Taniguchi. General relativistic simulations of magnetized binary neutron star mergers. Phys. Rev., D78:024012, 2008. (doi:10.1103/PhysRevD.78.024012)
  146. Oleg Korobkin, Burak Aksoylu, Michael Holst, Enrique Pazos, and Manuel Tiglio. Solving the Einstein constraint equations on multi-block triangulations using finite element methods. 2008.
  147. Sascha Husa, Jose A. Gonzalez, Mark Hannam, Bernd Brugmann, and Ulrich Sperhake. Reducing phase error in long numerical binary black hole evolutions with sixth order finite differencing. Class. Quant. Grav., 25:105006, 2008. (doi:10.1088/0264-9381/25/10/105006)
  148. Ian Hinder, Frank Herrmann, Pablo Laguna, and Deirdre Shoemaker. Comparisons of eccentric binary black hole simulations with post-Newtonian models. 2008.
  149. Brian D. Farris, Tsz Ka Li, Yuk Tung Liu, and Stuart L. Shapiro. Relativistic Radiation Magnetohydrodynamics in Dynamical Spacetimes: Numerical Methods and Tests. Phys. Rev., D78:024023, 2008. (doi:10.1103/PhysRevD.78.024023)
  150. Zachariah B. Etienne et al. Fully General Relativistic Simulations of Black Hole- Neutron Star Mergers. Phys. Rev., D77:084002, 2008. (doi:10.1103/PhysRevD.77.084002)
  151. Thibault Damour, Alessandro Nagar, Ernst Nils Dorband, Denis Pollney, and Luciano Rezzolla. Faithful Effective-One-Body waveforms of equal-mass coalescing black-hole binaries. Phys. Rev., D77:084017, 2008. (doi:10.1103/PhysRevD.77.084017)
  152. Sergio Dain, Carlos O. Lousto, and Yosef Zlochower. Extra-Large Remnant Recoil Velocities and Spins from Near- Extremal-Bowen-York-Spin Black-Hole Binaries. Phys. Rev., D78:024039, 2008. (doi:10.1103/PhysRevD.78.024039)
  153. Johannes Brunnemann and David Rideout. Properties of the Volume Operator in Loop Quantum Gravity: I. Results. Class. Quantum Grav., 25:065001, March 2008.
  154. Johannes Brunnemann and David Rideout. Properties of the Volume Operator in Loop Quantum Gravity: II. Detailed Presentation. Class. Quantum Grav., 25:065002, 2008.
  155. David Brown, Peter Diener, Olivier Sarbach, Erik Schnetter, and Manuel Tiglio. Turduckening black holes: an analytical and computational study. 2008.
  156. E. Berti, V. Cardoso, J. A. Gonzalez, U. Sperhake, and B. Brugmann. Multipolar analysis of spinning binaries. Class. Quant. Grav., 25:114035, 2008. (doi:10.1088/0264-9381/25/11/114035)
  157. Eloisa Bentivegna, Deirdre M. Shoemaker, Ian Hinder, and Frank Herrmann. Probing the Binary Black Hole Merger Regime with Scalar Perturbations. Phys. Rev., D77:124016, 2008. (doi:10.1103/PhysRevD.77.124016)
  158. Jayashree Balakrishna, Ruxandra Bondarescu, Gregory Daues, and Mihai Bondarescu. Numerical Simulations of Oscillating Soliton Stars: Excited States in Spherical Symmetry and Ground State Evolutions in 3D. Phys. Rev., D77:024028, 2008. (doi:10.1103/PhysRevD.77.024028)
  159. Luca Baiotti, Bruno Giacomazzo, and Luciano Rezzolla. Accurate evolutions of inspiralling neutron-star binaries: prompt and delayed collapse to black hole. 2008.
  160. Luca Baiotti, Sebastiano Bernuzzi, Giovanni Corvino, Roberto De Pietri, and Alessandro Nagar. Gravitational-Wave Extraction from Neutron Stars Oscillations: comparing linear and nonlinear techniques. 2008.
  161. M. C. Babiuc, N. T. Bishop, B. Szilagyi, and J. Winicour. Strategies for the Characteristic Extraction of Gravitational Waveforms. 2008.
  162. M. C. Babiuc et al. Implementation of standard testbeds for numerical relativity. Class. Quant. Grav., 25:125012, 2008. (doi:10.1088/0264-9381/25/12/125012)