Targeted large mass ratio numerical relativity surrogate waveform model for GW190814

Abstract

Gravitational wave observations of large mass ratio compact binary mergers like GW190814 highlight the need for reliable, high-accuracy waveform templates for such systems. We present NRHybSur2dq15, a new surrogate model trained on hybridized numerical relativity (NR) waveforms with mass ratios q≤15, and aligned spins |1z|≤0.5 and 2z=0. We target the parameter space of GW190814-like events as large mass ratio NR simulations are very expensive. The model includes the (2,2), (2,1), (3,3), (4,4), and (5,5) spin-weighted spherical harmonic modes, and spans the entire LIGO bandwidth (with flow=20 Hz) for total masses M 9.5 \, M. NRHybSur2dq15 accurately reproduces the hybrid waveforms, with mismatches below 2 × 10-3 for total masses 10 \, M ≤ M ≤ 300 \, M. This is at least an order of magnitude improvement over existing semi-analytical models for GW190814-like systems. Finally, we reanalyze GW190814 with the new model and obtain source parameter constraints consistent with previous work.