The Gravitational-Wave Signature of Core-Collapse Supernovae

Vartanyan, David; Burrows, Adam; Coleman, Matthew S. B.; White, Christopher

doi:10.48550/arxiv.2302.07092

2023

DOI: 10.48550/arxiv.2302.07092

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The Gravitational-Wave Signature of Core-Collapse Supernovae

David Vartanyan¹,

Adam Burrows²,

Matthew S. B. Coleman³

et al.

Abstract: We calculate the gravitational-wave (GW) signatures of detailed 3D core-collapse supernova simulations spanning a range of massive stars. Most of the simulations are carried out to times late enough to capture more than 95% of the total GW emission. We find that the f/g-mode and f-mode of proto-neutron star oscillations carry away most of the GW power. The f-mode frequency inexorably rises as the proto-neutron star (PNS) core shrinks. We demonstrate that the GW emission is excited mostly by accretion plumes on… Show more

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Three approaches for the classification of protoneutron star oscillation modes

Rodríguez

Ranea‐Sandoval

Chirenti

et al. 2023

Monthly Notices of the Royal Astronomical Society

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The future detection of gravitational waves (GWs) from a galactic core-collapse supernova will provide information on the physics inside protoneutron stars (PNS). In this work, we apply three different classification methods for the PNS non-radial oscillation modes: Cowling classification, Generalized Cowling Nomenclature (GCN), and a Classification Based on Modal Properties (CBMP). Using PNS models from 3D simulations of core-collapse supernovae, we find that in the early stages of the PNS evolution, typically before 0.4 seconds after the bounce, the Cowling classification is inconsistent, but the GCN and the CBMP provide complementary information that helps to understand the evolution of the modes. In the GCN, we note several avoided crossings as the mode frequencies evolve at early times, while the CBMP tracks the modes across the avoided crossings. We verify that the strongest emission of GWs by the PNS corresponds to the f-mode in the GCN, indicating that the mode trapping region alternates between the core and the envelope at each avoided crossing. At later times, approximately 0.4 seconds after the bounce, the three classification methods present a similar description of the mode spectrum. We use our results to test universal relations for the PNS modes according to their classification and find that the behaviour of the universal relations for f- and p-modes is remarkably simple in the CBMP.

show abstract

Three approaches for the classification of protoneutron star oscillation modes

Rodríguez

Ranea‐Sandoval

Chirenti

et al. 2023

Monthly Notices of the Royal Astronomical Society

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show abstract

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The Gravitational-Wave Signature of Core-Collapse Supernovae

Cited by 1 publication

References 88 publications

Three approaches for the classification of protoneutron star oscillation modes

Three approaches for the classification of protoneutron star oscillation modes

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