_version_ 1866909239947034624
author Szczepańczyk, Marek J.
Zheng, Yanyan
Antelis, Javier M.
Benjamin, Michael
Bizouard, Marie-Anne
Casallas-Lagos, Alejandro
Cerdá-Durán, Pablo
Davis, Derek
Gondek-Rosińska, Dorota
Klimenko, Sergey
Moreno, Claudia
Obergaulinger, Martin
Powell, Jade
Ramirez, Dymetris
Ratto, Brad
Richarson, Colter
Rijal, Abhinav
Stuver, Amber L.
Szewczyk, Paweł
Vedovato, Gabriele
Zanolin, Michele
Bartos, Imre
Bhaumik, Shubhagata
Bulik, Tomasz
Drago, Marco
Font, José A.
De Colle, Fabio
García-Bellido, Juan
Gayathri, V.
Hughey, Brennan
Mitselmakher, Guenakh
Mishra, Tanmaya
Mukherjee, Soma
Nguyen, Quynh Lan
Chan, Man Leong
Di Palma, Irene
Piotrzkowski, Brandon J.
Singh, Neha
author_facet Szczepańczyk, Marek J.
Zheng, Yanyan
Antelis, Javier M.
Benjamin, Michael
Bizouard, Marie-Anne
Casallas-Lagos, Alejandro
Cerdá-Durán, Pablo
Davis, Derek
Gondek-Rosińska, Dorota
Klimenko, Sergey
Moreno, Claudia
Obergaulinger, Martin
Powell, Jade
Ramirez, Dymetris
Ratto, Brad
Richarson, Colter
Rijal, Abhinav
Stuver, Amber L.
Szewczyk, Paweł
Vedovato, Gabriele
Zanolin, Michele
Bartos, Imre
Bhaumik, Shubhagata
Bulik, Tomasz
Drago, Marco
Font, José A.
De Colle, Fabio
García-Bellido, Juan
Gayathri, V.
Hughey, Brennan
Mitselmakher, Guenakh
Mishra, Tanmaya
Mukherjee, Soma
Nguyen, Quynh Lan
Chan, Man Leong
Di Palma, Irene
Piotrzkowski, Brandon J.
Singh, Neha
contents We present the results from a search for gravitational-wave transients associated with core-collapse supernovae observed optically within 30 Mpc during the third observing run of Advanced LIGO and Advanced Virgo. No gravitational wave associated with a core-collapse supernova has been identified. We then report the detection efficiency for a variety of possible gravitational-wave emissions. For neutrino-driven explosions, the distance at which we reach 50% detection efficiency is up to 8.9 kpc, while more energetic magnetorotationally-driven explosions are detectable at larger distances. The distance reaches for selected models of the black hole formation, and quantum chromodynamics phase transition are also provided. We then constrain the core-collapse supernova engine across a wide frequency range from 50 Hz to 2 kHz. The upper limits on gravitational-wave energy and luminosity emission are at low frequencies down to $10^{-4}\,M_\odot c^2$ and $6 \times 10^{-4}\,M_\odot c^2$/s, respectively. The upper limits on the proto-neutron star ellipticity are down to 3 at high frequencies. Finally, by combining the results obtained with the data from the first and second observing runs of LIGO and Virgo, we improve the constraints of the parameter spaces of the extreme emission models. Specifically, the proto-neutron star ellipticities for the long-lasting bar mode model are down to 1 for long emission (1 s) at high frequency.
format Preprint
id arxiv_https___arxiv_org_abs_2305_16146
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle An Optically Targeted Search for Gravitational Waves emitted by Core-Collapse Supernovae during the Third Observing Run of Advanced LIGO and Advanced Virgo
Szczepańczyk, Marek J.
Zheng, Yanyan
Antelis, Javier M.
Benjamin, Michael
Bizouard, Marie-Anne
Casallas-Lagos, Alejandro
Cerdá-Durán, Pablo
Davis, Derek
Gondek-Rosińska, Dorota
Klimenko, Sergey
Moreno, Claudia
Obergaulinger, Martin
Powell, Jade
Ramirez, Dymetris
Ratto, Brad
Richarson, Colter
Rijal, Abhinav
Stuver, Amber L.
Szewczyk, Paweł
Vedovato, Gabriele
Zanolin, Michele
Bartos, Imre
Bhaumik, Shubhagata
Bulik, Tomasz
Drago, Marco
Font, José A.
De Colle, Fabio
García-Bellido, Juan
Gayathri, V.
Hughey, Brennan
Mitselmakher, Guenakh
Mishra, Tanmaya
Mukherjee, Soma
Nguyen, Quynh Lan
Chan, Man Leong
Di Palma, Irene
Piotrzkowski, Brandon J.
Singh, Neha
High Energy Astrophysical Phenomena
General Relativity and Quantum Cosmology
We present the results from a search for gravitational-wave transients associated with core-collapse supernovae observed optically within 30 Mpc during the third observing run of Advanced LIGO and Advanced Virgo. No gravitational wave associated with a core-collapse supernova has been identified. We then report the detection efficiency for a variety of possible gravitational-wave emissions. For neutrino-driven explosions, the distance at which we reach 50% detection efficiency is up to 8.9 kpc, while more energetic magnetorotationally-driven explosions are detectable at larger distances. The distance reaches for selected models of the black hole formation, and quantum chromodynamics phase transition are also provided. We then constrain the core-collapse supernova engine across a wide frequency range from 50 Hz to 2 kHz. The upper limits on gravitational-wave energy and luminosity emission are at low frequencies down to $10^{-4}\,M_\odot c^2$ and $6 \times 10^{-4}\,M_\odot c^2$/s, respectively. The upper limits on the proto-neutron star ellipticity are down to 3 at high frequencies. Finally, by combining the results obtained with the data from the first and second observing runs of LIGO and Virgo, we improve the constraints of the parameter spaces of the extreme emission models. Specifically, the proto-neutron star ellipticities for the long-lasting bar mode model are down to 1 for long emission (1 s) at high frequency.
title An Optically Targeted Search for Gravitational Waves emitted by Core-Collapse Supernovae during the Third Observing Run of Advanced LIGO and Advanced Virgo
topic High Energy Astrophysical Phenomena
General Relativity and Quantum Cosmology
url https://arxiv.org/abs/2305.16146