Testing general relativity with gravitational waves -- improving and extending Modified Dispersion Relation tests
Abstract
Searching for a modified dispersion relation is one of the general relativity tests performed by the LIGO-Virgo-KAGRA collaboration with each new cumulative Gravitational Wave Transient Catalog (GWTC). It considers classes of theories that modify the dispersion of gravitational waves by introducing a massive graviton or breaking Lorentz invariance. The symmetry breaking is parameterized phenomenologically by a momentum power law term pα added to the dispersion relation, with the test placing constraints on the amplitude Aα of the introduced deviation. In this work, we implement improvements to the test, chief among them group velocity parametrization, a better sampling procedure, and extension to negative exponents α of p. We then reanalyze the events from the third catalog, GWTC-3, with our improved method. Compared with GWTC-3 results, we find significant improvement, mostly from the improved sampling method, in the posteriors obtained by analyzing individual event and more modest improvements in the combined bounds on amplitude parameters Aα -- on average, we observe 19% shrinking of posterior width. The 90% upper bound on the graviton mass changes from 2.42 × 10-11 peV to 2.21 × 10-11 peV. For the extension of our test to α ∈ \-1, -2, -3\, we find no evidence in favor of general relativity violation.
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