Exploring the anisotropic gravitational wave background from all-sky mock gravitational wave event catalogues

Abstract

Anisotropic stochastic gravitational wave background (SGWB) serves as a potential probe of the large-scale structure (LSS) of the universe. In this work, we explore the anisotropic SGWB from local (z < 0.085) merging stellar mass compact binaries, specifically focusing on merging stellar binary black holes, merging neutron-star-black-hole binaries, and merging binary neutron stars. The analysis employs seven all-sky mock lightcone gravitational wave event catalogues, which are derived from the Millennium simulation combined with a semi-analytic model of galaxy formation and a binary population synthesis model. We calculate the angular power spectra C at multipole moments , expressed as log10 [(+1)C/(2π)], based on the skymaps of the overdensity δGW in the anisotropic SGWB. The spectra for all three source types exhibit an approximately linear increase with log10 at higher (e.g., > 30 - 300) in seven catalogues, with a characteristic slope of 2. The spectra of seven catalogues exhibit considerable variations, arising from fluctuations in spatial distribution, primarily in the radial distribution, of nearby sources (e.g., < 50 Mpc/h). After subtracting these nearby sources, the variations become much smaller and the spectra for the three source types become closely aligned (within discrepancies of a factor of 2 across = 1 - 1000 for all catalogues). We also find that including further sources results in a rapid decrease in the anisotropy.

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