Searching for precessing binary systems with mode-by-mode filtering and marginalization

TL;DR

This paper introduces a novel method for searching precessing binary black hole signals in gravitational wave data by mode-by-mode filtering, marginalization, and machine learning techniques, improving detection sensitivity.

Contribution

It develops new precessing template banks using mode filtering and marginalization, combined with machine learning, to enhance search efficiency and sensitivity in gravitational wave data.

Findings

Marginalizing over harmonic SNRs increases sensitive volume by ~10%.

New template banks reduce redundancy and improve detection efficiency.

Framework is applied to LVK data, with results in a companion paper.

Abstract

Nearly all previous binary black hole searches in LIGO--Virgo--KAGRA (LVK) gravitational wave data have assumed that the component spins are aligned with the orbital angular momentum, thereby neglecting spin-precession effects in the waveform, which can lead to potentially missing interesting signals. Precessing searches are challenging, because the extra degrees of freedom due to misaligned spins lead to: $(i)$ a much larger number of templates compared to the aligned-spin configurations, $(ii)$ an increased rate of background triggers. To address this, we develop novel precessing signal template banks using mode-by-mode filtering and marginalization methods. We use the precession harmonic decomposition from Fairhurst et al. (2019) and filter each precessing harmonic separately with the data. We then marginalize over the SNRs from different harmonics in our detection statistic. We also use machine learning methods to improve our search efficiency: $(i)$ we use singular value decomposition together with random forest regressor to reduce redundancy in the dominant precessing-harmonic templates; $(ii)$ we use normalizing flows to generate optimal prior samples for harmonic SNRs for the marginalized statistic. We show that marginalizing (instead of maximizing) over the harmonic mode SNRs increases the search sensitive volume by $\sim 10\%$. Results from searching in LVK data using this framework will be reported in a companion paper.