# Literature Catalog: Gravitational Waves from Core Collapse Supernovae

maintained by

Ewald Müller, Max-Planck-Institut für Astrophysik, Garching, Germany

Last updated on Jan 10, 2017

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## 2016

Abbott, B.P. and ... (LIGO collaboration)

A First Targeted Search for Gravitational-Wave Bursts from Core-Collapse Supernovae in Data of

First-Generation Laser Interferometer Detectors of Core-Collapse Supernovae

Phys. Rev. D94 102001 (2016)

Andresen, H. and Müller, B. and Müller, E. and Janka, H.-T.

Gravitational Wave Signals from 3D Neutrino Hydrodynamics Simulations of Core-Collapse Supernovae

arXiv:1607.05199

Gossan, S.E. and Sutton, P. and Stuver, A. and Zanolin, M. and Gill, K. and Ott, C. D.

Observing Gravitational Waves from Core-Collapse Supernovae in the Advanced Detector Era

Phys. Rev. D93 042002 (2016)

Hayama, K. and Kuroda, T. and Nakamura, K. and Yamada, S.

Circular Polarizations of Gravitational Waves from Core-Collapse Supernovae: A Clear Indication of Rapid Rotation

Phys. Rev. Lett., 116.151102 (2016)

Heo, J.-E. and Yoon, S. and Lee, D.-S. and Kong, I.-t. and Lee, S.-H. and van Putten, M.H.P.M. and Della Valle, M.

Proposed searches for candidate sources of gravitational waves in a nearby core-collapse supernova survey

New Astronomy, 42, 24 (2016)

Kuroda, T. and Kotake, K. and Takiwaki, T.

A new gravitational-wave signature of SASI activities in non-rotating supernova cores

ApJL 829, L14 (2016)

Powell, J and Gossan, S.E. and Logue, J. and Heng, I.S.

Inferring the core-collapse supernova explosion mechanism with gravitational waves

arXiv:1610.05573

van Putten, M.H.P.M.

Directed Searches for Broadband Extended Gravitational Wave Emission in Nearby Energetic Core-collapse Supernovae

ApJ 819, 169 (2016)

## 2015

Fuller, J. and Klion, H. and Abdikamalov, E. and Ott, C.D.

Supernova seismology: gravitational wave signatures of rapidly rotating core collapse

MNRAS 450, 414 (2015)

Hayama, K. and Kuroda, T. and Kotake, K. and Takiwaki, T.

Coherent Network Analysis of Gravitational Waves from Three-Dimensional

Core-Collapse Supernova Models

Phys. Rev. D92 212001 (2015)

Levinson, A. and van Putten, M.H.P.M. and Pick, G

Broadband Extended Emission in Gravitational Waves from Core-collapse Supernovae

ApJ 812, 124 (2015)

Yakunin, K.N. and Mezzacappa, A. and Marronetti, P. and Yoshida, S. and Bruenn, S.W. and Hix, W.R. and

Lentz, E.J. and Messer, O.E.B. and Harris, J.A. and Endeve, E. and Blondin, J.M. and Lingerfelt, E.J.

Gravitational Wave Signatures of Ab Initio Two-Dimensional Core Collapse Supernova

Explosion Models for 12-25 Solar Masses Stars

Phy. Rev. D92, 084040 (2015)

Yokozawa, T. and Asano, M. and Kayano, T. and Suwa, Y. and Kanda, N. and Koshio, Y. and Vagins, M.R.

Probing the Rotation of Core-collapse Supernova with a Concurrent Analysis of Gravitational Waves and Neutrinos

ApJ 811, 86 (2015)

## 2014

Abdikamalov, E. and Gossan, S. and DeMaio, A.M. and Ott, C.D.

Measuring the Angular Momentum Distribution in Core-Collapse Supernova Progenitors with Gravitational Waves

Phys. Rev. D90, 044011 (2014)

Edwards, M.C. and Meyer, R. and Christensen, N.

Bayesian parameter estimation of core collapse supernovae using gravitational wave simulations

Inverse Problems, Volume 30, Issue 11, article id. 114008 (2014)

Engels, W.J. and Frey, R. and Ott, C.D.

Multivariate Regression Analysis of Gravitational Waves from Rotating Core Collapse

Phys. Rev. D90, 124026 (2014)

Kuroda, T. and Takiwaki, T. and Kotake, K.

Gravitational wave signatures from low-mode spiral instabilities in rapidly rotating supernova cores

Phys. Rev. D89, 044011 (2014)

## 2013

Cerda-Duran, P. and DeBrye, N. and Aloy, M.A. and Font, J.A. and Obergaulinger, M.

Gravitational Wave Signatures in Black Hole Forming Core Collapse

ApJL 779, L18 (2013)

Kotake, K.

Multiple physical elements to determine the gravitational-wave signatures of core-collapse supernovae

Comptes Rendus Physique 14 (2013) 318

Müller, B. and Janka, H-Th. and Marek, A.

A New Multi-Dimensional General Relativistic Neutrino Hydrodynamics Code of Core-Collapse Supernovae

III. Gravitational Wave Signals from Supernova Explosion Models

ApJ 766, 43 (2013)

Ott, C.D. and Abdikamalov, E. and Moesta, P. and Haas, R. and Drasco, S. and O'Connor, E.

and Reisswig, C. and Meakin, C. and Schnetter, E.

General-Relativistic Simulations of Three-Dimensional Core-Collapse Supernovae

ApJ 768, 115 (2013)

Wongwathanarat, A. and Janka, H.-T. and Müller, E.

Three-dimensional neutrino-driven supernovae: Neutron star kicks, spins, and asymmetric ejection of nucleosynthesis products

A&A 552, 126 (2013)

## 2012

Janka, H.-T.

Explosion Mechanisms of Core-Collapse Supernovae

Ann. Rev. Nuc. Part. Sci. 62, 407 (2012)

Kotake, K. and Takiwaki, T. and Harikae, S.

Gravitational Wave Signatures of Hyperaccreting Collapsar Disks

ApJ 755, 84 (2012)

Kotake, K. and Takiwaki, T. and Suwa, Y. and Iwakami Nakano, W. and Kawagoe, S. and

Masada, Y. and Fujimoto, S.-I.

Multimessengers from core-collapse supernovae: multidimensionality as a key to bridge theory and observation

Advances in Astronomy 2012, 428757 (2012)

Logue, J. and Ott, C.D. and Heng, I.S. and Kalmus,P. and Scargill, J.

Inferring Core-Collapse Supernova Physics with Gravitational Waves

Phys. Rev. D86, 044023 (2012)

Müller, B. and Marek, A. and Janka, H.-T. and Dimmelmeier, H.

General Relativistic Explosion Models of Core-Collapse Supernovae

ASP Conf. Series, 459, 137 (2012)

Müller, E. and Janka, H-Th. and Wongwathanarat, A.

Parametrized 3D models of neutrino-driven supernova explosions: Neutrino emission asymmetries and gravitational-wave signals

A&A 537, 63 (2012)

Ott, C.D. and Abdikamalov, E. and O'Connor, E.P. and Reisswig, C. and Haas, R. and Kalmus, P. and

Drasco, S. and Burrows, A. and Schnetter, E.

Correlated Gravitational Wave and Neutrino Signals from General-Relativistic Rapidly Rotating Iron Core Collapse

Phys. Rev. D86, 024026 (2012)

Ott, C.D. and O'Connor, E.P. and Gossan, S. and Abdikamalov, E. and Gamma, U.C.T. and Drasco, S.

Core-Collapse Supernovae, Neutrinos, and Gravitational Waves

Proc. Neutrino 2012, Kyoto, Japan; eprint arXiv:1212.4250

Piro, A.L. and Thrane, E.

Gravitational Waves from Fallback Accretion onto Neutron Stars

ApJ 761, 63 (2012)

## 2011

Fryer, C. L. and New, K.C.B.

Gravitational Waves from Gravitational Collapse

Living Reviews in Relativity, 14 (2011), 1.

Kotake, K. and Iwakami Nakano, W. and Ohnishi, N.

Effects of Rotation on Stochasticity of Gravitational Waves in Nonlinear Phase of Core-Collapse Supernovae

ApJ 736, 124 (2011)

Müller, B. and Janka, H-Th. and Marek, A. and Hanke, F. and Wongwathanarat, A. and Müller, E.

Core-Collapse Supernovae: Explosion Dynamics, Neutrinos and Gravitational Waves

Contribution to the Proceedings of HANSE 2011 workshop, e-print arXiv:1112.1913 (2011)

Ott, C. D. and Reisswig, C. and Schnetter, E. and O'Connor, E. and Sperhake, U. and Löffler, F. and

Diener, P. and Abdikamalov, E. and Hawke, I. and Burrows, A.

Dynamics and Gravitational Wave Signature of Collapsar Formation

Phys. Rev. Lett. 106, 161103 (2011)

Reisswig, C. and Ott, C.D. and Sperhake, U. and Schnetter, E.

Gravitational Wave Extraction in Simulations of Rotating Stellar Core Collapse

Phys. Rev. D83, 064008 (2011)

Takiwaki, T. and Kotake, K.

Gravitational Wave Signatures of Magnetohydrodynamically Driven Core-collapse Supernova Explosions

ApJ 743, 30 (2011)

Zhu, X.-J. and Howell, E. and Blair, D.

Observational upper limits on the gravitational wave production of core collapse supernovae

MNRAS 409, L132 (2010)

## 2010

Abdikamalov, E.B. and Ott, C.D. and Rezzolla, L. and Dessart, L. and Dimmelmeier, H. and Marek, A.

and Janka, H.-T.

Axisymmetric general relativistic simulations of the accretion-induced collapse of white dwarfs

Phys. Rev. D81, 044012 (2010)

Leonor, I. and Cadonati, L. and Coccia, E. and D'Antonio, S. and Di Credico, A. and Fafone, V. and Frey, R.

and Fulgione, W. and Katsavounidis, E. and Ott, C.D. and Pagliaroli, G. and Scholberg, K. and Thrane, E.

and Vissani, F.

Searching for prompt signatures of nearby core-collapse supernovae by a joint analysis of neutrino and

gravitational wave data

CQG, 27, 084019 (2010)

Scheidegger, S. and Käppeli, R. and Whitehouse, S.C. and Fischer, T. and Liebendörfer, M.

The influence of model parameters on the prediction of gravitational wave signals from stellar core collapse

A&A 514, A51 (2010)

Scheidegger, S. Whitehouse, S.C. and Käppeli, R. and Liebendörfer, M.

Gravitational waves from supernova matter

CQG, 27, 114101 (2010)

Yakunin, K.N and Marronetti, P. and Mezzacappa, A. and Bruenn, S.W and Lee, C.-T. and Chertkow, M.

and Hix, W. and Blondin, J.M and Lentz, E.J and Messer, B. and Yoshida, S.

Gravitational Waves from Core Collapse Supernovae

QCG 27, 194005 (2010)

Yakunin, K.N and Marronetti, P. and Mezzacappa, A. and Bruenn, S.W and Lee, C.-T. and Chertkow, M.

and Hix, W. and Blondin, J.M and Lentz, E.J and Messer, B. and Yoshida, S.

Core Collapse Supernovae using CHIMERA: Gravitational Radiation from Non-Rotating Progenitors ,

ArXiv e-prints, 1011.3752 (2010)

Zhu, X.-J. and Howell, E. and Blair, D.

Observational upper limits on the gravitational wave production of core collapse supernovae

MNRAS 409, L132 (2010)

## 2009

Halzen, F. and Raffelt, G.

Reconstructing the supernova bounce time with neutrinos in IceCube

Phys. Rev. D80, 087301 (2009)

Kotake, K. and Iwakami, W. and Ohnishi, N. and Yamada, S.

Stochastic nature of gravitational waves from supernova explosions with standing accretion shock instability

ApJ 697, L133 (2009)

Kotake, K. and Iwakami, W. and Ohnishi, N. and Yamada, S.

Ray-Tracing analysis of anisotropic neutrino radiation for estimating gravitational waves in core-collapse supernovae

ApJ 704, 951 (2009)

Marek, A. and Janka, H.-T. and Müller, E.

Equation-of-state dependent features in shock-oscillation modulated neutrino and gravitational-wave signals from supernovae

A&A 496, 475 (2009)

Murphy, J. and Ott, C.D. and Burrows, A.

A model for gravitational wave emission from neutrino-driven core-collapse supernovae}

ApJ 707, 1173 (2009)

Ott, C.D.

The gravitational-wave signature of core-collapse supernovae

Topical Review, CQG 26, 063001 (2009)

Ott, C.D.

Probing the core-collapse supernova mechanism with gravitational waves

CQG, 26, 204015 (2009)

Ott, C.D. and Schnetter, E. and Burrows, A. and Livne, E. and O\'Connor, E. and Löffler, F.

Computational models of stellar collapse and core-collapse supernovae

J.Phys.Conf.Series, 180, 012022 (2009)

Pagliaroli, G. and Vissani, F. and Coccia, E. and Fulgione, W.

Neutrinos from supernovae as a trigger for gravitational wave search

Phys. Rev. Letters 103, 031102 (2009)

Röver, C. and Bizouard, M.-A. and Christensen, N. and Dimmelmeier, H. and Heng, I.S. and Meyer, R.

Bayesian reconstruction of gravitational wave burst signals from simulations of rotating stellar core collapse and bounce

Phys. Rev. D80, 102004 (2009)

## 2008

Dimmelmeier, H. and Ott, C.D. and Marek, A. and Janka, H.-T.

Gravitational wave burst signal from core collapse of rotating stars

Phys. Rev. D78, 064056 (2008)

Hayama, K. and Desai, S. and Kotake, K. and Mohanty, S.D. and Rakhmanov, M. and Summerscales, T. and Yoshida, S.

Determination of the angular momentum distribution of supernovae from gravitational wave observations

CQG 25, 184022 (2008)

Honda, R. and Kanda, N. and Akutsu, T. and Ando, M. and Tsunesada, Y. and the TAMA Collaboration

Search for gravitational waves on short duration in TAMA300 data: stellar core collapse and black hole

J. Phys. Conf. Ser. 120, 032013 (2008)

Kotake, K. and Suwa, Y. and Yasutake, N.

Gravitational waves from core-collapse supernovae and their related compact objects

EAS Publications Series, 30,95-100 (2008)

Novak, G. and Dimmelmeier, H. and Font, J.A..

A Combined Spectral/Godunov Code for the Simulation of Gravitational Waves from Stellar Supernova Core Collapse

in "Numerical Modeling of Space Plasma Flows: Astronum 2007", ASP Conf. Ser. 385, 127 (2008)

Müller, B. and Dimmelmeier, H. and Müller, E.

Exploring the relativistic regime with Newtonian hydrodynamics: II. An effective gravitational potential for rapid rotation

A&A, 489, 301-314 (2008)

Scheidegger, S. and Fischer, T. and Liebendörfer, M.

Gravitational waves from 3D MHD core collapse simulations

A&A, 490, 231-241 (2008)

Summerscales, T. Z. and Burrows, A. and Finn, L. S. and Ott, C.D.

Maximum Entropy for Gravitational Wave Data Analysis: Inferring the Physical Parameters of Core-Collapse Supernovae

ApJ, 678, 1142-1157 (2008)

## 2007

Dimmelmeier, H. and Ott, C. D. and Janka, H.-T. and Marek, A. and Müller, E.

Generic Gravitational Wave Signals from the Collapse of Rotatinga Stellar Cores

Phys. Rev. Lett., 98, 251101 (2007)

Dimmelmeier, H. and Ott, C. D. and Janka, H.-T. and Marek, A. and Müller, E.

Generic Gravitational Wave Signals from the Collapse of Rotating Stellar Cores: A Detailed Analysis

in Proceedings of the XLII Rencontres de Moriond, "Gravitational Waves and Experimental Gravity", La Thuile, Italy, 2007

Kotake, K. and Ohnishi, N. and Yamada, S.

Gravitational Radiation from Standing Accretion Shock Instability in Core-Collapse Supernovae

ApJ, 655, 406-415 (2007)

Liu, Y. T. and Shapiro, S. L. and Stephens, B. C.

Magnetorotational collapse of very massive stars to black holes in full general relativity

Phys. Rev. D76, 084017 (2007)

Ott, C. D.

Stellar Iron Core Collapse in 3+1 General Relativity and The Gravitational Wave Signature of Core-Collapse Supernovae}

Ph.D dissertation, 2006, Germany, -- Univ. Potsdam and Max-Planck-Institut fuer Gravitationsphysik, Publication 517-opus-12986

Ott, C. D. and Dimmelmeier, H. and Marek, A. and Janka, H.-T. and Zink, B. and Hawke, I. and Schnetter, E.

3D Collapse of Rotating Stellar Iron Cores in General Relativity including Deleptonization and a Nuclear Equation of State

Phys. Rev. Lett., 98.261101 (2007)

Ott, C. D. and Dimmelmeier, H. and Marek, A. and Janka, H.-T. and Zink, B. and Hawke, I. and Schnetter, E.

Rotating collapse of stellar iron cores in general relativity

CQG, 24, S139-S154 (2007)

Suwa, Y. and Takiwaki, T. and Kotake, K. and Sato, K.

Gravitational Wave Background from Population III Stars

ApJ, 665, L43-L46 (2007)

Yasutake, N. and Kotake, K. and Hashimoto, M. and Yamada, S.

Effects of QCD phase transition on gravitational radiation from two-dimensional collapse and bounce of massive stars

Phys. Rev. D., 75.084012 (2007)

## 2006

Dimmelmeier, H. and Cerda-Duran, P. and Marek, A. and Faye, G.

New Methods for Approximating General Relativity in Numerical Simulations of Stellar Core Collapse

in Albert Einstein Century International Conference, AIP Conf. Proc., 861, 600-607 (2006)

Fryer, C. L. and New, K.C.B.

Gravitational Waves from Gravitational Collapse

Living Reviews in Relativity, 6 (2003), 2. URL (cited on 24 Jan 2006)

Kotake, K. and Sato, K. and Takahashi, K.

Explosion mechanism, neutrino burst and gravitational wave in core-collapse supernovae

Rep. Prog. Phys., 69, 971-1143 (2006)

Obergaulinger, M. and Aloy, M. A. and Dimmelmeier, H. and Müller, E.

Axisymmetric simulations of magneto-rotational core collapse: approximate inclusion of general relativistic effects

A&A, 457, 209-222 (2006)

Obergaulinger, M. and Aloy, M. A. and Müller, E.

Axisymmetric simulations of magneto-rotational core collapse: dynamics and gravitational wave signal

A&A, 450, 1107-1134 (2006)

Ott, C. D. and Burrows, A. and Dessart, L. and Livne, E.

A New Mechanism for Gravitational-Wave Emission in Core-Collapse Supernovae

Phys. Rev. Lett. 96.201102 (2006)

Rockefeller, G. and Fryer, C. L. and Li, H.

Collapsars in Three Dimensions

submitted to ApJ

## 2005

Ando, M. et.al (> 100 co-authors)

Observation results by the TAMA300 detector on gravitational wave bursts from stellar-core collapses

Phys. Rev. D71, 082002 (2005)

Buonanno, A. and Sigl, G. and Raffelt, G. G. and Janka, H.-T. and Müller, E.

Stochastic gravitational-wave background from cosmological supernovae

Phys. Rev. D72, 084001 (2005)

Cerda-Duran, P. and Faye, G. and Dimmelmeier, H. and Font, J.A. and Ibanez, J.M. and Müller, E. and Schäfer, G.

CFC+: Improved dynamics and gravitational waveforms from relativistic core collapse simulations

Astron. Astrophys. 439, 1033 (2005)

Dimmelmeier, H. and Novak, J. and Font, J.A. and Ibanez, J.M. and Müller, E.

Combining spectral and shock-capturing methods: a new numerical approach for 3D relativistic core collapse simulations

Phys. Rev. D71, 064023 (2005)

Kotake, K. and Yamada, S. and Sato, K.

North-South Neutrino Heating Asymmetry in Strongly Magnetized and Rotating Stellar Cores

ApJ 618, 474 (2005)

Ott, C. D. and Ou, S. and Tohline, J. E. and Burrows, A.

One-armed Spiral Instability in a Low-T/|W| Postbounce Supernova Core

ApJ 625, L119 (2005)

Saijo, M.

Dynamical bar instability in a relativistic rotational core collapse

Phys Rev D71.104038 (2005)

Shibata, M. and Sekiguchi, Y.

Three-dimensional simulations of stellar core collapse in full general relativity: Nonaxisymmetric dynamical instabilities

Phys. Rev. D71, 024014 (2005)

Sekiguchi, Y. and Shibata, M.

Axisymmetric collapse simulations of rotating massive stellar cores in full general relativity:

Numerical study for prompt black hole formation

Phys. Rev. D71, 084013 (2005)

van Putten, M. H. P. M.

GRB-supernovae: A new spin on gravitational waves

Nuovo Cimento C, 28, 597 (2005)

## 2004

Arnaud, N. and Barsuglia, M. and Bizouard, M. and Brisson, V. and Cavalier, F. and Davier, M. and Hello, P. and

Kreckelbergh, S. and Porter, E.K.

Detection of a close supernova gravitational wave burst in a network of interferometers, neutrino and optical detectors

Astroparticle Physics 21, 201 (2004)

Fryer, C.L.

Neutron Star Kicks from Asymmetric Collapse

ApJ 601, L175 (2004)

Fryer, C.L. and Holz, D.E. and Hughes, S.A.

Gravitational Waves from Stellar Collapse: Correlations to Explosion Asymmetries

ApJ 609, 288 (2004)

Fryer, C.L. and Holz, D.E. and Hughes, S.A. and Warren, M.S.

Stellar collapse and gravitational waves

in "Stellar Collapse", ed. C.L. Fryer, Kluwer Academic Publ., Dordrecht, p.373-402 (2004)

Howell, E. and Coward, D. and Burman, R. and Blair, D. and Gilmore, J.

The gravitational wave background from neutron star birth throughout the cosmos

Mon. Not. Roy. Astron. Soc. 351, 1237 (2004)

Kotake, K. and Yamada, S. and Sato, K. and Sumiyoshi, K. and Ono, H. and Suzuki, H.

Gravitational Radiation from Rotational Core Collapse: Effects of Magnetic Fields and Realistic Equation of States

Phys. Rev. D69, 124004 (2004)

Kotake, K. and Sawai, H. and Yamada, S. and Sato, K.

Magnetorotational Effects on Anisotropic Neutrino Emission and Convection in Core-Collapse Supernovae

ApJ 608, 391 (2004)

Loveridge, L. C.

Gravitational waves from a pulsar kick caused by neutrino conversions

Phys. Rev. D69, 024008 (2004)

Mizuno, Y. and Yamada, S. and Koide, S. and Shibata, K.

General Relativistic Magnetohydrodynamic Simulations of Collapsars

ApJ 606, 395 (2004)

Mizuno, Y. and Yamada, S. and Koide, S. and Shibata, K.

General Relativistic Magnetohydrodynamic Simulations of Collapsars: Rotating Black Hole Cases

ApJ 615, 389 (2004)

Müller, E. and Rampp, M. and Buras, R. and Janka, H.-T. and Shoemaker, D.H.

Toward Gravitational Wave Signals from Realistic Core-Collapse Supernova Models

ApJ 603, 221 (2004)

Ott, C.D. and Burrows, A. and Livne, E. and Walder, R.

Gravitational Waves from Axisymmetric, Rotating Stellar Core Collapse

ApJ 600, 834 (2004)

Sekiguchi, Y. and Shibata, M.

New criterion for direct black hole formation in rapidly rotating stellar collapse

Phys. Rev. D70, 084005 (2004)

Shibata, M. and Sekiguchi, Y.

Gravitational waves from axisymmetric rotating stellar core collapse to a neutron star in full general relativity

Phys. Rev. D69, 084024 (2004)

Takiwaki, T. and Kotake, K. and Nagataki, S. and Sato, K.

Magneto-driven Shock Waves in Core-Collapse Supernovae

ApJ 616, 1086 (2004)

van Putten, M.H. and Levinson, A. and Lee, H.K. and Regimbau, T. and Punturo, M. and Harry, G.M.

Gravitational radiation from gamma-ray burst-supernovae as observational opportunities for LIGO and VIRGO

Phys. Rev. D69, 044007 (2004)

Yamada, S. and Sawai, H.

Numerical Study on the Rotational Collapse of Strongly Magnetized Cores of Massive Stars

ApJ 608, 907 (2004)

## 2003

Fryer, C.L. and Warren, M.S. and Holz, D.E. and Hughes, S.A. and Dupuis, R.

Gravitational waves from core collapse

in "Gravitational-Wave Detection", eds. M.Cruise and P.Saulson, proceedings of the SPIE, Vol.4856, 123 (2003)

Imamura, J.N. and Pickett, B.K. and Durisen, R.H.

The Nonlinear Evolution of Massive Stellar Core Collapses That 'Fizzle'

ApJ 587, 341 (2003)

Kobayashi, S., Meszaros, P.

Polarized gravitational waves from gamma-ray bursts

ApJ, 585, L89 (2003).

Kotake, K. and Yamada, S. and Sato, K.

Gravitational radiation from axisymmetric rotational core collapse

Phys.Rev.D, 68, 44023 (2003).

Mezzacappa, A.

The Road to Prediction: Toward Gravitational Wave Signatures from Core Collapse Supernovae

AIP Conf. Proc. 686 , 29 (2003).

New, K.C.B.

Gravitational Waves from Gravitational Collapse

Living Reviews in Relativity, 6 (2003)

Santostasi, G. and Johnson, W. and Frank, J.

Detectability of Gravitational Waves from SN1987A

ApJ 586, 1191 (2003).

Shibata, M.

Axisymmetric general relativistic hydrodynamics: Long-term evolution of neutron stars and stellar collapse

to neutron stars and black holes

Phys. Rev. D67, 024033 (2003).

## 2002

Dimmelmeier, H. and Font, J. A. and Müller, E.

Relativistic simulations of rotational core collapse. I. Methods, initial models, and code tests

Astron. Astrophys., 388, 917 (2002).

Dimmelmeier, H. and Font, J. A. and Müller, E.

Relativistic simulations of rotational core collapse. II. Collapse dynamics and gravitational radiation

Astron. Astrophys., 393, 523 (2002).

Fryer, C. and Holz, D. E. and Hughes, S. A.

Gravitational wave emission from core collapse of massive stars

ApJ, 565, 430 (2002).

van Putten, M.H.P.M.

LIGO/VIRGO searches for gravitational radiation in hypernovae

ApJ, 575, L71 (2002).

## 2001

Brown, J. D.

Rotational instabilities in post-collapse stellar cores

AIP Conference Proc., Vol. 575, Astrophysical sources for ground-based gravitational wave detectors,

p.234 (2001), ed. Centrella, J. M. New York, USA. AIP, Melville.

Dimmelmeier, H. and Font, J. A. and Müller, E.

Gravitational waves from relativistic rotational core collapse

ApJ 560, L163-L166. (2001).

Saijo, M. and Shibata, M. and Baumgarte, T. W. and Shapiro, S. L.

Dynamical Bar Instability in Rotating Stars: Effect of General Relativity

ApJ, 548, 919, (2001).

## 2000

Houser, J.L.

Instabilities in Stiff Stellar Cores: The Gravitational Radiation Reaction

in 'Gravitational Waves', Third Edoardo Amaldi Conference, ed. S. Meshkov,

AIP Conference Proceedings, Vol.523, 51 (2000).

Novak, J. and Ibanez, J.M.,

Gravitational Waves from the Collapse and Bounce of a Stellar Core in Tensor-Scalar Gravity

ApJ 533, 392 (2000)

New, K. C. B. and Centrella, J. M. and Tohline, J. E.

Gravitational waves from long-duration simulations of the dynamical bar instability

Phys. Rev. D. 62. 064019.(2000).

Schneider, R. and Ferrara, A. and Ciardi, B. and Ferrari, V. and Matarrese, S.

Gravitational wave signals from the collapse of the first stars

Mon.Not.Roy.Astron.Soc., 317, 385-390 (2000).

Shibata, M.

Axisymmetric simulations of rotating stellar collapse in full general relativity - Criteria for

prompt collapse to black holes

Prog. Theor. Phys. 104, 325 (2000).

Shibata, M. and Baumgarte, T. W. and Shapiro, S. L.

Stability and collapse of rapidly rotating, supramassive neutron stars: 3D simulations in general relativity

Phys. Rev. D. 61. 044012. (2000).

Shibata, M. and Baumgarte, T. W. and Shapiro, S. L.

The Bar-Mode Instability in Differentially Rotating Neutron Stars: Simulations in Full General Relativity

ApJ 542, 453 (2000).

Wheeler, J. C. and Yi, I. and Höflich, P. and Wang, L.

Asymmetric supernovae, pulsars, magnetars, and gamma-ray bursts

ApJ, 537, 810 (2000).

## 1999

Burman, R.R. and Blair, D.G. and Woodings, S.J.

Calculating the cosmic background of supernova-generated gravitational radiation

in 'Recent developments in theoretical and experimental general relativity, gravitation, and relativistic field theories',

eds. T. Piran and R. Ruffini, World Scientific Publishers, 1092 (1999)

Ferrari, V. and Matarrese, S. and Schneider, R.

Gravitational wave background from a cosmological population of core-collapse supernovae

Mon.Not.Roy.Astron.Soc., 3037, 247-257 (1999).

## 1998

Houser, J.L.

The effect of rotation on the gravitational radiation and dynamical stability of stiff stellar cores

Mon. Not. Roy. Astronom. Soc., 299, 1069 (1998).

Müller, E.

"Simulation of astrophysical fluid flow"

in "Computational methods for astrophysical fluid flow", Saas-Fee Advanced Course 27, 343 (1998),

eds. Steiner, O. and Gautschy, A.,Berlin, Germany, Springer.

Rampp, M. and Müller, E. and Ruffert, M.

Simulations of non-axisymmetric rotational core collapse

Astron. Astrophys, 332, 969 (1998).

## 1997

Bonazzola, S. and Frieben, J. and Gourgoulhon, E.

Spontaneous symmetry breaking of rapidly rotating stars in general relativity: influence of the 3D-shift vector

Astron. Astrophys., 331, 280 (1997).

Müller, E. and Janka, H.-T.

Gravitational radiation from convective instabilities in type II supernova explosions

Astron. Astrophys., 317, 140 (1997).

Nazin, S.N. and Potsnov, K.A.

High neutron star birth velocities and gravitational radiation during supernova explosions

Astron. Astrophys., 317, L79 (1997).

Zwerger, T. and Müller, E.

Dynamics and gravitational wave signature of axisymmetric rotational core collapse

Astron. Astrophys., 320, 209 (1997).

## 1996

Bonazzola, S. and Frieben, J. and Gourgoulhon, E.

Spontaneous Symmetry Breaking of Rapidly Rotating Stars in General Relativity

ApJ, 460, 379 (1996).

Burrows, A. and Hayes, J.

Pulsar recoil and gravitational radiation due to axisymmetrical stellar collapse and explosion

Phys. Rev. Lett., 76, 352 (1996).

Smith, S. C. and Houser, J. L. and Centrella, J. M.

Simulations of nonaxisymmetric instability in a rotating star: A comparison between Eulerian and

Smooth Particle Hydrodynamics

ApJ, 458, 236 (1996).

## 1995

Bonnell, I.A. and Pringle, J.E.

Gravitational radiation from supernovae

MNRAS, 273, L12 (1995).

Müller, E.

"Gravitational Waves from Core Collapse Supernovae"

in "Astrophysical Sources of Gravitational Radiation", p. 273 1995, eds. Marck, J.-A. and Lasota, J.-P.,

Cambridge University Press.

Yamada, S. and Sato, K.

Gravitational radiation from rotational collapse of a supernova core

ApJ, 450, 245 (1995).

## 1994

Houser, J. L. and Centrella, J. M. and Smith, S. C.

Gravitational radiation from nonaxisymmetric instability in a rotating star

Phys. Rev. Lett., 72, 1314 (1994).

## 1993

Bonazzola, S. and Marck, J. A.

Efficiency of gravitational radiation from axisymmetric and 3D stellar collapse. I - Polytropic case

Astron. Astrophys., 267, 623 (1993).

## 1991

Mönchmeyer, R. and Schäfer, G. and Müller, E. and Kates, R. E.

Gravitational waves from the collapse of rotating stellar cores

Astron. Astrophys. 246, 417 (1991).

## 1990

Finn, L. S. and Evans, C. R.

Determining gravitational radiation from Newtonian self-gravitating systems

ApJ, 351, 588 (1990).

Seidel, E.

Gravitational radiation from even-parity perturbations of stellar collapse: Mathematical formalism

and numerical methods

Phys. Rev. D. 42, 1884 (1990).

## 1989

Finn, L. S.

"Supernovae, gravitational radiation, and the quadrupole formula"

in "Frontiers in numerical relativity", p.126 (1989), eds. Evans, C. R. and Finn, S. L. and Hobill, D. W.,

Cambridge University Press.

## 1988

Seidel, E. and Myra, E.S. and Moore, T.

Gravitational radiation from type-II supernovae: The effect of the high-density equation of state

Phys. Rev. D. 38, 2349 (1988).

## 1987

Nakamura, T. and Oohara, K. and Kojima, Y.

General relativistic collapse to black holes and gravitational waves from black holes

Prog. Theor. Phys., 90, 1 (1987).

Seidel, E. and Moore, T.

Gravitational radiation from realistic relativistic stars: Odd-parity fluid perturbations

Phys. Rev. D., 35, 2287 (1987).

Stark, R. F. and Piran, T.

"A general relativistic code for rotating axisymmetric configurations and gravitational radiation:

Numerical methods and tests"

Comp. Phys. Rep., 5, 221 (1987).

## 1986

Evans, C. R.

"An approach for calculating axisymmetric gravitational collapse"

in "Dynamical spacetimes and numerical relativity", p.3, (1986), ed. Centrella, J. M.,

Cambridge University Press.

## 1985

Stark, R. F. and Piran, T.

Gravitational-wave emission from rotating gravitational collapse

Phys. Rev. Lett., 55, 891 (1985).

## 1983

Nakamura, T.

General relativistic collapse of accreting neutron stars with rotation

Prog. Theor. Phys., 70, 1144 (1983).

## 1982

Müller, E.

Gravitational radiation from collapsing rotating stellar cores

Astron. Astrophys., 114, 53 (1982).

## 1981

Müller, E. and Hillebrandt, W.

The collapse of rotating stellar cores

Astron. Astrophys., 103, 358 (1981).

Nakamura, T.

General relativistic collapse of axially symmetric stars leading to the formation of rotating black holes

Prog. Theor. Phys., 65, 1876 (1981).

Saenz, R. A. and Shapiro, S. L.

Gravitational radiation from stellar core collapse. III. Damped ellipsiodal oscillations

ApJ, 244, 1033 (1981).

## 1979

Wilson, J. R.

"A numerical method for relativistic hydrodynamics"

in Sources of gravitational radiation, p. 423, 1979, eds. Smarr, L. L. Cambridge University Press.

Saenz, R. A. and Shapiro, S. L.

Gravitational radiation from stellar core collapse: Improved Ellipsiodal model calculations

ApJ, 229, 1107 (1979).

## 1978

Epstein, R.

The generation of gravitational radiation by escaping supernova neutrinos

ApJ., 223, 1037 (1978).

Saenz, R. A. and Shapiro, S. L.

Gravitational radiation from stellar core collapse: Ellipsiodal models

ApJ, 221, 286 (1978).

Turner, M. S.

Gravitational radiation from supernova neutrino bursts

Nature, 274, 565 (1978).

## 1971

Wilson, J. R.

A numerical study of gravitational stellar collapse

ApJ, 163, 209 (1971).