Considerations for the Observability of Kinematically Offset Binary AGN. Kelley, L. Z. arXiv:2005.10255 [astro-ph], May, 2020. arXiv: 2005.10255Paper abstract bibtex The gravitational waves from Massive black-hole (MBH) binaries are expected to be detected by pulsar timing arrays in the next few years. While they are a promising source for multimessenger observations as binary AGN, few convincing candidates have been identified in electromagnetic surveys. One approach to identifying candidates has been through spectroscopic surveys searching for offsets or time-dependent offsets of broad emission lines (BLs), which may be characteristic of Doppler shifts from binary orbital motion. In this study, we predict the parameter space of MBH binaries that should be kinematically detectable. There is a delicate trade-off between requiring binary separations to be large enough for BL regions to remain attached to one of the AGN, but also small enough such that their orbital velocity is detectable. We find that kinematic signatures are only observable for the lower-mass secondary AGN, for binaries with total-masses above about $10{\textasciicircum}8 M_{\}odot$, and separations between 0.1 and 1 pc. We motivate our usage of a kinematic-offset sensitivity of $10{\textasciicircum}3$ km/s, and a sensitivity to changing offsets of $10{\textasciicircum}2$ km/s. With these parameters, and an Eddington ratio of 0.1, we find that 0.5% of binaries have detectable offsets, and only 0.03% have detectable velocity changes. Overall, kinematic binary signatures should be expected in fewer than one in $10{\textasciicircum}4$ AGN. Better characterizing the intrinsic variability of BLs is crucial to understanding and vetting MBH binary candidates. This requires multi-epoch spectroscopy of large populations of AGN over a variety of timescales.
@article{kelley_considerations_2020,
title = {Considerations for the {Observability} of {Kinematically} {Offset} {Binary} {AGN}},
url = {http://arxiv.org/abs/2005.10255},
abstract = {The gravitational waves from Massive black-hole (MBH) binaries are expected to be detected by pulsar timing arrays in the next few years. While they are a promising source for multimessenger observations as binary AGN, few convincing candidates have been identified in electromagnetic surveys. One approach to identifying candidates has been through spectroscopic surveys searching for offsets or time-dependent offsets of broad emission lines (BLs), which may be characteristic of Doppler shifts from binary orbital motion. In this study, we predict the parameter space of MBH binaries that should be kinematically detectable. There is a delicate trade-off between requiring binary separations to be large enough for BL regions to remain attached to one of the AGN, but also small enough such that their orbital velocity is detectable. We find that kinematic signatures are only observable for the lower-mass secondary AGN, for binaries with total-masses above about \$10{\textasciicircum}8 M\_{\textbackslash}odot\$, and separations between 0.1 and 1 pc. We motivate our usage of a kinematic-offset sensitivity of \$10{\textasciicircum}3\$ km/s, and a sensitivity to changing offsets of \$10{\textasciicircum}2\$ km/s. With these parameters, and an Eddington ratio of 0.1, we find that 0.5\% of binaries have detectable offsets, and only 0.03\% have detectable velocity changes. Overall, kinematic binary signatures should be expected in fewer than one in \$10{\textasciicircum}4\$ AGN. Better characterizing the intrinsic variability of BLs is crucial to understanding and vetting MBH binary candidates. This requires multi-epoch spectroscopy of large populations of AGN over a variety of timescales.},
urldate = {2020-05-26},
journal = {arXiv:2005.10255 [astro-ph]},
author = {Kelley, Luke Zoltan},
month = may,
year = {2020},
note = {arXiv: 2005.10255},
keywords = {Astrophysics - Astrophysics of Galaxies, Astrophysics - High Energy Astrophysical Phenomena, mentions sympy},
}
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There is a delicate trade-off between requiring binary separations to be large enough for BL regions to remain attached to one of the AGN, but also small enough such that their orbital velocity is detectable. We find that kinematic signatures are only observable for the lower-mass secondary AGN, for binaries with total-masses above about $10{\\textasciicircum}8 M_{\\}odot$, and separations between 0.1 and 1 pc. We motivate our usage of a kinematic-offset sensitivity of $10{\\textasciicircum}3$ km/s, and a sensitivity to changing offsets of $10{\\textasciicircum}2$ km/s. With these parameters, and an Eddington ratio of 0.1, we find that 0.5% of binaries have detectable offsets, and only 0.03% have detectable velocity changes. Overall, kinematic binary signatures should be expected in fewer than one in $10{\\textasciicircum}4$ AGN. Better characterizing the intrinsic variability of BLs is crucial to understanding and vetting MBH binary candidates. 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One approach to identifying candidates has been through spectroscopic surveys searching for offsets or time-dependent offsets of broad emission lines (BLs), which may be characteristic of Doppler shifts from binary orbital motion. In this study, we predict the parameter space of MBH binaries that should be kinematically detectable. There is a delicate trade-off between requiring binary separations to be large enough for BL regions to remain attached to one of the AGN, but also small enough such that their orbital velocity is detectable. We find that kinematic signatures are only observable for the lower-mass secondary AGN, for binaries with total-masses above about \\$10{\\textasciicircum}8 M\\_{\\textbackslash}odot\\$, and separations between 0.1 and 1 pc. We motivate our usage of a kinematic-offset sensitivity of \\$10{\\textasciicircum}3\\$ km/s, and a sensitivity to changing offsets of \\$10{\\textasciicircum}2\\$ km/s. 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