Document detail
ID
oai:arXiv.org:2411.11075
Topic
General Relativity and Quantum Cos... Astrophysics - High Energy Astroph...Author
Li, Hong-Bo Shao, Lijing Xia, Cheng-Jun Xu, Ren-XinCategory
sciences: astrophysics
Year
2024
listing date
11/20/2024
Keywords
waves neutron moment gravitationalAbstract
As density increases, the shape of nuclei transitions to non-spherical ``nuclear pasta" structures.
The physical properties of the nuclear pasta, such as thermal conductivity and elasticity, have implications for detecting continuous gravitational waves from a rapidly rotating neutron star.
In this work, we investigate the effect of the nuclear pasta on the quadruple moment, and find out that, compared with previous work, the quadrupole moment contributing to continuous gravitational-wave radiation can be up to two orders of magnitude larger.
We also discuss the relationship between the quadruple moment and the maximum shear strain.
Considering the properties of nuclear pasta, we study the detectability of known accreting neutron stars and compare predicted results to the detectable amplitude limits.
These sources are well above the sensitivity curves for Cosmic Explorer and Einstein Telescope detectors.
Our work advances the understanding of the properties of nuclear pasta and a possible mechanism for continuous gravitational waves.
;Comment: 15 pages, 14 figures
Li, Hong-Bo,Shao, Lijing,Xia, Cheng-Jun,Xu, Ren-Xin, 2024, Continuous gravitational waves from thermal mountains on accreting neutron stars: effect of the nuclear pasta phase
Analysis of the ICML 2023 Ranking Data: Can Authors' Opinions of Their Own Papers Assist Peer Review in Machine Learning?
peer author-provided analysis rankings scores review learning machine science computer
