Saved in:
Bibliographic Details
Main Authors: Naqvi, Syed U., Mishra, Chandra Kant
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2509.10675
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866911152648224768
author Naqvi, Syed U.
Mishra, Chandra Kant
author_facet Naqvi, Syed U.
Mishra, Chandra Kant
contents Spin-induced deformations of individual components of a binary can be quantified using the gravitational wave signal the binary emits. Such deformations are characterised by a parameter, $ κ$, which takes a value of 1 for a black hole and thus its measurement can be used to test the no-hair conjecture. However, in practice, only a symmetric combination of this parameter for a binary ($ κ_s $) can be measured, thus instead enabling a test for the no-hair conjecture in the context of a binary black hole system; see for instance, Krishnendu et al., Phys. Rev. Lett. 119, 091101 (2017), arXiv:1701.06318. While previous studies have focused on circular binaries, we extend this test to eccentric systems in a Fisher matrix based analysis. We find that the error in the measurement of the parameter $ κ_s $ reduces from a value of about 18% (for the circular case) to close to 8% (4%) for a $ 10 M_{\odot} $ system with dimensionless component spins $ >0.8 $ and with a reference initial eccentricity ($ e_0 $) of 0.2 (0.4) evaluated at 5 Hz for a third generation detector, Cosmic Explorer (CE). Compared to the estimates obtained by using Advanced LIGO design sensitivity, eccentricity and the overall improved sensitivity of CE detectors together seem to improve these estimates almost by an order of magnitude.
format Preprint
id arxiv_https___arxiv_org_abs_2509_10675
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Spin-induced Quadrupole Moment (SIQM) Test for Eccentric Compact Binaries
Naqvi, Syed U.
Mishra, Chandra Kant
General Relativity and Quantum Cosmology
Spin-induced deformations of individual components of a binary can be quantified using the gravitational wave signal the binary emits. Such deformations are characterised by a parameter, $ κ$, which takes a value of 1 for a black hole and thus its measurement can be used to test the no-hair conjecture. However, in practice, only a symmetric combination of this parameter for a binary ($ κ_s $) can be measured, thus instead enabling a test for the no-hair conjecture in the context of a binary black hole system; see for instance, Krishnendu et al., Phys. Rev. Lett. 119, 091101 (2017), arXiv:1701.06318. While previous studies have focused on circular binaries, we extend this test to eccentric systems in a Fisher matrix based analysis. We find that the error in the measurement of the parameter $ κ_s $ reduces from a value of about 18% (for the circular case) to close to 8% (4%) for a $ 10 M_{\odot} $ system with dimensionless component spins $ >0.8 $ and with a reference initial eccentricity ($ e_0 $) of 0.2 (0.4) evaluated at 5 Hz for a third generation detector, Cosmic Explorer (CE). Compared to the estimates obtained by using Advanced LIGO design sensitivity, eccentricity and the overall improved sensitivity of CE detectors together seem to improve these estimates almost by an order of magnitude.
title Spin-induced Quadrupole Moment (SIQM) Test for Eccentric Compact Binaries
topic General Relativity and Quantum Cosmology
url https://arxiv.org/abs/2509.10675