Prospects for Future Binary Black Hole GW Studies in Light of PTA Measurements

Article
Report number	arXiv:2301.13854 ; KCL-PH-TH/2023-04 ; CERN-TH-2023-008 ; AION-REPORT/2023-1
Title	Prospects for Future Binary Black Hole GW Studies in Light of PTA Measurements
Author(s)	Ellis, John (CERN ; King's Coll. London ; Unlisted, EE) ; Fairbairn, Malcolm (King's Coll. London) ; Hütsi, Gert (Unlisted, EE) ; Raidal, Martti (Unlisted, EE) ; Urrutia, Juan (Unlisted, EE ; NICPB, Tallinn) ; Vaskonen, Ville (Unlisted, EE ; Padua U. ; INFN, Padua) ; Veermäe, Hardi (Unlisted, EE)
Publication	2023-08-01
Imprint	2023-01-31
Number of pages	13
In:	Astron. Astrophys. 676 (2023) A38
DOI	10.1051/0004-6361/202346268 (publication)
Subject category	astro-ph.HE ; Astrophysics and Astronomy ; astro-ph.CO ; Astrophysics and Astronomy
Abstract	NANOGrav and other Pulsar Timing Arrays (PTAs) have discovered a common-spectrum process in the nHz range that may be due to gravitational waves (GWs): if so, they are likely to have been generated by black hole (BH) binaries with total masses $> 10^9 M_{\odot}$. Using the Extended Press-Schechter formalism to model the galactic halo mass function and a simple relation between the halo and BH masses suggests that these binaries have redshifts $z = {O}(1)$ and mass ratios $\gtrsim 10$, and that the GW signal at frequencies above ${O}(10)$ nHz may be dominated by relatively few binaries that could be distinguished experimentally and would yield observable circular polarization. Extrapolating the model to higher frequencies indicates that future GW detectors such as LISA and AEDGE could extend the PTA observations to lower BH masses $\in (10^6, 10^9 ) M_{\odot}$ and $\in (10^3, 10^9) M_{\odot}$.
Copyright/License	publication: © 2023-2024 The Authors (License: CC BY 4.0) preprint: (License: CC BY 4.0)

$BH merger rates calculated as functions of the redshift $z$ in three ranges of the total merging BH mass $M$ and normalized relative to the merger probability $p_{\rm BH}$ discussed in the text.$ $Mean GW energy density spectrum from massive BH mergers compared with the sensitivities of different experiments. The black dashed curve shows the case where all mergers of galaxies produce a GW signal for BHs heavier than $10^3 \Msun$ ($p_{\rm BH} = 1$). The colored bands show the spectra from SMBHs heavier than $10^9 \Msun$ (dark blue), from SMBHs in the range $(10^6 \Msun,10^9 \Msun)$ (light blue), and from IMBHs with masses in the range $10^3-10^6 \Msun$ (green), assuming a universal efficiency factor $p_{\rm BH} = 0.17^{+0.18}_{-0.08}$. The shaded regions show the prospective sensitivities of IPTA30~\citep{Chen:2016kax,Kaiser:2020tlg}, LISA~\citep{LISA:2017pwj}, AEDGE~\citep{AEDGE:2019nxb,Badurina:2021rgt}, AION-km~\citep{Badurina:2019hst,Badurina:2021rgt} and ET~\citep{Sathyaprakash:2012jk}.$ $Distributions of the binary parameters for a sampling of the BH binary population with $0<z<3$, $1\,{\rm nHz} < f < 30 {\rm nHz}$ and $\mathcal{M}_0$ 10^9 (f/{\rm nHz})^{-\frac43}$. The symmetric mass ratio is integrated with the lower bound $\eta > 0.001$. In the right panel, the black curve shows the NANOGrav $95\%$ CL constraint on continuous GW sources~\citep{NANOGrav:2023bts} and the projected sensitivity of IPTA30 at SNR $=8$." width="200px"/> Show more plots

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