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Some high-mass stars likely end their lives in underluminous implosions that leave behind a black hole, known as failed supernovae (FSNe). However, neutrinos radiated during proto-neutron star formation generate a weak (Mach $\gtrsim 1$)…

High Energy Astrophysical Phenomena · Physics 2026-05-08 Daniel A. Paradiso , Sarah Vallejo , Eric R. Coughlin

The compact remnants of core collapse supernovae - neutron stars and black holes - have properties that reflect both the structure of their stellar progenitors and the physics of the explosion. In particular, the masses of these remnants…

Astrophysics · Physics 2009-11-13 Weiqun Zhang , S. E. Woosley , A. Heger

A failed core-collapse supernova from a non-rotating progenitor can eject mass due to a weakening of gravity associated to neutrino emission by the protoneutron star. This mechanism yields observable transients and sets an upper limit to…

High Energy Astrophysical Phenomena · Physics 2021-04-14 Mario Ivanov , Rodrigo Fernández

It is widely thought that core-collapse supernovae (CCSNe), the explosions of massive stars following the collapse of the stars' iron cores, is obtained due to energy deposition by neutrinos. So far, this scenario was not demonstrated from…

High Energy Astrophysical Phenomena · Physics 2015-02-12 Doron Kushnir

Some massive stars end their lives as \textit{failed} core-collapse supernovae (CCSNe) and become black holes (BHs). Although in this class of phenomena the stalled supernova shock is not revived, the outer stellar envelope can still be…

High Energy Astrophysical Phenomena · Physics 2022-10-03 A. S. Schneider , E. O'Connor

The core of a massive star (M > 8 Msun) eventually collapses. This implosion usually triggers a supernova (SN) explosion that ejects most of the stellar envelope and leaves behind a neutron star (NS) with a mass of up to about 2 Msun.…

High Energy Astrophysical Phenomena · Physics 2026-03-31 Georg G. Raffelt , Hans-Thomas Janka , Damiano F. G. Fiorillo

We demonstrate that $\sim10\,\textrm{s}$ after the core-collapse of a massive star, a thermonuclear explosion of the outer shells is possible for some (tuned) initial density and composition profiles, assuming that the neutrinos failed to…

High Energy Astrophysical Phenomena · Physics 2015-10-07 Doron Kushnir , Boaz Katz

During the core collapse of massive stars, the formation of the protoneutron star is accompanied by the emission of a significant amount of mass-energy ($\sim 0.3 \, M_{\odot}$) in the form of neutrinos. This mass-energy loss generates an…

High Energy Astrophysical Phenomena · Physics 2018-03-28 Eric R. Coughlin , Eliot Quataert , Rodrigo Fernández , Daniel Kasen

The continuing difficulty of achieving a reliable explosion in simulations of core-collapse supernovae, especially for more massive stars, has led to speculation concerning the observable transients that might be produced if such a…

High Energy Astrophysical Phenomena · Physics 2013-05-21 Elizabeth Lovegrove , Stan Woosley

It is firmly established that the stellar mass distribution is smooth, covering the range 0.1-100 Msun. It is to be expected that the masses of the ensuing compact remnants correlate with the masses of their progenitor stars, and thus it is…

Astrophysics of Galaxies · Physics 2015-05-30 K. Belczynski , G. Wiktorowicz , C. Fryer , D. Holz , V. Kalogera

During a failed core-collapse supernova, the protoneutron star eventually collapses under its own gravitational field and forms a black hole. This collapse happens quickly, on the dynamical time of the protoneutron star, $\lesssim$0.5 ms.…

High Energy Astrophysical Phenomena · Physics 2022-03-09 Samuel Gullin , Evan O'Connor , Jia-Shian Wang , Jeff Tseng

The explosion of core-collapse supernovae (CCSNe) is an extremely challenging problem, and there are still large uncertainties regarding which stars lead to successful explosions that leave behind a neutron star, and which ones will form a…

High Energy Astrophysical Phenomena · Physics 2024-12-30 Luca Boccioli , Giacomo Fragione

During the last few years, a number of exceptional core-collapse supernovae (SNe) have been discovered. Their kinetic energy of the explosions are larger by more than an order of magnitude than the typical values for this type of SNe, so…

Astrophysics · Physics 2015-12-02 K. Nomoto , K. Maeda , P. A. Mazzali , H. Umeda , J. Deng , K. Iwamoto

According to the traditional scenario for core-collapse supernovae, the core of the collapsing star forms a neutron star and its gravitational energy release sends out a shockwave into the stellar envelope. However, in a significant number…

High Energy Astrophysical Phenomena · Physics 2018-11-14 En-Hao Feng , Rong-Feng Shen , Wei-Peng Lin

Core-collapse supernovae span a wide range of energies, from much less than to much greater than the binding energy of the progenitor star. As a result, the shock wave generated from a supernova explosion can have a wide range of Mach…

High Energy Astrophysical Phenomena · Physics 2019-08-07 Stephen Ro , Eric R. Coughlin , Eliot Quataert

Core collapse of massive stars leads to different fates for various physical factors, which gives different spectra of the emitted neutrinos. We focus on the supernova relic neutrinos (SRNs) as a probe to investigate the stellar collapse…

High Energy Astrophysical Phenomena · Physics 2022-09-27 Yosuke Ashida , Ken'ichiro Nakazato

In the standard supernova picture, type Ib/c and type II supernovae are powered by the potential energy released in the collapse of the core of a massive star. In studying supernovae, we primarily focus on the ejecta that makes it beyond…

Astrophysics · Physics 2009-06-23 Chris L. Fryer

The final fate of massive stars depends on many factors, including mass, rotation rate, magnetic fields and metallicity. Theory suggests that some massive stars (initially greater than 25-30 solar masses) end up as Wolf-Rayet stars which…

We study the ejection of mass during stellar core-collapse when the stalled shock does not revive and a black hole forms. Neutrino emission during the protoneutron star phase causes a decrease in the gravitational mass of the core,…

High Energy Astrophysical Phenomena · Physics 2018-02-28 Rodrigo Fernández , Eliot Quataert , Kazumi Kashiyama , Eric R. Coughlin

First results of numerical simulations are presented which compute the dynamical evolution of a neutron star with a mass slightly below the minimum stable mass by means of a new implicit (general relativistic) hydrodynamic code. We show…

Astrophysics · Physics 2007-05-23 K. Sumiyoshi , S. Yamada , H. Suzuki , W. Hillebrandt
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