Implementing a search for aligned-spin neutron star -- black hole systems with advanced ground based gravitational wave detectors

Tito Dal Canton , Alexander H. Nitz , Andrew P. Lundgren , Alex B. Nielsen , Duncan A. Brown , Thomas Dent , Ian W. Harry , Badri Krishnan

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Andrew J. Miller Karl Wette Karsten Wiesner Joshua L. Willis

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classification 🌀 gr-qc

keywords searchspinsaligned-spinbinaryholesystemstemplatesadvanced

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We study the effect of spins on searches for gravitational waves from compact binary coalescences in realistic simulated early advanced LIGO data. We construct a detection pipeline including matched filtering, signal-based vetoes, a coincidence test between different detectors, and an estimate of the rate of background events. We restrict attention to neutron star--black hole (NS-BH) binary systems, and we compare a search using non-spinning templates to one using templates that include spins aligned with the orbital angular momentum. To run the searches we implement the binary inspiral matched-filter computation in PyCBC, a new software toolkit for gravitational-wave data analysis. We find that the inclusion of aligned-spin effects significantly increases the astrophysical reach of the search. Considering astrophysical NS-BH systems with non-precessing black hole spins, for dimensionless spin components along the orbital angular momentum uniformly distributed in $(-1, 1)$, the sensitive volume of the search with aligned-spin templates is increased by $\sim 50\%$ compared to the non-spinning search; for signals with aligned spins uniformly distributed in the range $(0.7,1)$, the increase in sensitive volume is a factor of $\sim 10$.

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