Abstract
The gravitational wave measurements of spin-induced multipole moment coefficients of a binary black hole system can be used to distinguish black holes from other compact objects []. Here, we apply the idea proposed in reference [] to binary systems composed of supermassive and intermediate-mass black holes and derive the expected bounds on their Kerr nature using future space-based gravitational wave detectors. Using astrophysical models of binary black hole population, we study the measurability of the spin-induced quadrupole and octupole moment coefficients using LISA and DECIGO. The errors on spin-induced quadrupole moment parameter of the binary system are found to be ⩽0.1 for almost 3% of the total supermassive binary black hole population which is detectable by LISA whereas it is ∼46% for the intermediate-mass black hole binaries observable by DECIGO at its design sensitivity. We find that errors on both the quadrupole and octupole moment parameters can be estimated to be ⩽1 for ∼2% and ∼50% of the population respectively for LISA and DECIGO detectors. Our findings suggest that a subpopulation of binary black hole events, with the signal to noise ratio thresholds greater than 200 and 100 respectively for LISA and DECIGO detectors, would permit tests of black hole nature to 10% precision.
Highlights
The detection of binary black hole mergers by Laser Interferometric Gravitational wave Observatory (LIGO) and Virgo detectors [2, 3] have firmly established the existence of stellar mass black holes [4,5,6,7,8,9,10,11]
We investigate the measurability of spininduced quadrupole and octupole moment parameters of supermassive and intermediate-mass binary black holes using LISA and DECIGO detector configurations, respectively
We investigated the possibility of testing the Kerr nature of intermediate-mass and supermassive binary black hole systems using space-based gravitational wave detectors
Summary
The detection of binary black hole mergers by Laser Interferometric Gravitational wave Observatory (LIGO) and Virgo detectors [2, 3] have firmly established the existence of stellar mass black holes [4,5,6,7,8,9,10,11]. We address the possibility of measuring spin-induced quadrupole and octupole moment coefficients of supermassive and intermediate-mass binary black holes using the proposed space-based gravitational wave observatories. We investigate the measurability of spininduced quadrupole and octupole moment parameters of supermassive and intermediate-mass binary black holes using LISA and DECIGO detector configurations, respectively. We show that the proposed LISA and DECIGO detectors will allow us to measure both spininduced quadrupole and octupole moment parameters with reasonably good statistical errors and are excellent probes for the tests of Kerr nature of compact binary systems composed of supermassive and intermediatemass binary black holes, by considering an astrophysical population of binary black holes.
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