Limits on Hierarchical Black Hole Mergers from the Most Negative χ effSystems

Maya Fishbach; Chase Kimball; Vicky Kalogera

doi:10.3847/2041-8213/ac86c4

Limits on Hierarchical Black Hole Mergers from the Most Negative χ _effSystems

Maya Fishbach^*, Chase Kimball, Vicky Kalogera

^*Corresponding author for this work

Physics and Astronomy

Research output: Contribution to journal › Article › peer-review

26 Scopus citations

Abstract

It has been proposed that some black holes (BHs) in binary black hole (BBH) systems are born from "hierarchical mergers"(HMs), i.e., earlier mergers of smaller BHs. These HM products have spin magnitudes χ ∼0.7, and, if they are dynamically assembled into BBH systems, their spin orientations will sometimes be antialigned with the binary orbital angular momentum. In fact, as Baibhav et al. showed, 1/416% of BBH systems that include HM products will have an effective inspiral spin parameter, χ eff < -0.3. Nevertheless, the LIGO-Virgo-KAGRA (LVK) gravitational-wave (GW) detectors have yet to observe a BBH system with χ eff 2 -0.2, leading to upper limits on the fraction of HM products in the population. We fit the astrophysical mass and spin distribution of BBH systems and measure the fraction of BBH systems with χ eff < -0.3, which implies an upper limit on the HM fraction. We find that fewer than 26% of systems in the underlying BBH population include HM products (90% credibility). Even among BBH systems with primary masses m 1 = 60 M ⊙, the HM fraction is less than 69%, which may constrain the location of the pair-instability mass gap. With 300 GW events (to be expected in the LVK's next observing run), if we fail to observe a BBH with χ eff < -0.3, we can conclude that the HM fraction is smaller than 2.5-2.2+9.1% .

Original language	English (US)
Article number	L26
Journal	Astrophysical Journal Letters
Volume	935
Issue number	2
DOIs	https://doi.org/10.3847/2041-8213/ac86c4
State	Published - Aug 1 2022

Funding

We thank Sylvia Biscoveanu, Christopher Berry, and Reed Essick for their helpful comments on the manuscript. M.F. is supported by NASA through NASA Hubble Fellowship grant HST-HF2-51455.001-A awarded by the Space Telescope Science Institute, which is operated by the Association of Universities for Research in Astronomy, Inc., under NASA contract NAS5-26555. C.K. is supported by the Riedel Family Fellowship. V.K. is grateful for support from a Guggenheim Fellowship, CIFAR as a Senior Fellow, and Northwestern University, including the Daniel I. Linzer Distinguished University Professorship fund. This material is based upon work supported by NSF’s LIGO Laboratory, which is a major facility fully funded by the National Science Foundation.

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

Access to Document

10.3847/2041-8213/ac86c4

Cite this

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title = "Limits on Hierarchical Black Hole Mergers from the Most Negative χ effSystems",

abstract = "It has been proposed that some black holes (BHs) in binary black hole (BBH) systems are born from {"}hierarchical mergers{"}(HMs), i.e., earlier mergers of smaller BHs. These HM products have spin magnitudes χ ∼0.7, and, if they are dynamically assembled into BBH systems, their spin orientations will sometimes be antialigned with the binary orbital angular momentum. In fact, as Baibhav et al. showed, 1/416% of BBH systems that include HM products will have an effective inspiral spin parameter, χ eff < -0.3. Nevertheless, the LIGO-Virgo-KAGRA (LVK) gravitational-wave (GW) detectors have yet to observe a BBH system with χ eff 2 -0.2, leading to upper limits on the fraction of HM products in the population. We fit the astrophysical mass and spin distribution of BBH systems and measure the fraction of BBH systems with χ eff < -0.3, which implies an upper limit on the HM fraction. We find that fewer than 26% of systems in the underlying BBH population include HM products (90% credibility). Even among BBH systems with primary masses m 1 = 60 M ⊙, the HM fraction is less than 69%, which may constrain the location of the pair-instability mass gap. With 300 GW events (to be expected in the LVK's next observing run), if we fail to observe a BBH with χ eff < -0.3, we can conclude that the HM fraction is smaller than 2.5-2.2+9.1% .",

author = "Maya Fishbach and Chase Kimball and Vicky Kalogera",

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