Including higher-order modes in a quadrupolar eccentric numerical relativity surrogate using universal eccentric modulation functions

Abstract

gwNRHME is a framework that converts multi-modal (i.e., containing several spherical harmonic modes) quasi-circular waveforms into their eccentric counterparts, provided the quadrupolar eccentric mode is known, by exploiting universal eccentric modulation functions. Leveraging this framework, we combine the quasi-circular NR surrogate model NRHybSur3dq8 with the quadrupolar, non-spinning, eccentric surrogate NRSurE\q4NoSpin\22 to construct a multi-modal, non-spinning, eccentric model, denoted as , which includes nine modes: (2,\1,2\), (3,\1,2,3\), (4,\2,3,4\), and (5,5). When compared against 156 eccentric SXS NR waveforms, achieves median frequency-domain mismatches (computed using the Advanced LIGO design sensitivity) of 9× 10-5, with a standard deviation of 2 × 10-4. To demonstrate the modularity of the framework, we further combine NRSurE\q4NoSpin\22 with effective-one-body (EOB) models SEOBNRv5HM and TEOBResumS-Dali in their non-spinning limits, yielding eccentric waveforms with median mismatches of 2×10-4 and 10-3, respectively, with standard deviation of 2 × 10-3 and 2 × 10-2 respectively. Finally, we provide both a surrogate model, gwEccEvolve\q4NoSpin\Sur, and an analytical model, gwEccEvNSv2, for the eccentricity evolution up to 2M before merger, based on eccentricity definitions derived from the universal modulation functions. The gwNRHME framework is publicly available through the gwModels package, and the resulting waveform models will be released via the gwsurrogate package.