Search for Non-Tensorial Gravitational-Wave Backgrounds in the NANOGrav 15-Year Data Set
Abstract
The recent detection of a stochastic signal in the NANOGrav 15-year data set has aroused great interest in uncovering its origin. However, the evidence for the Hellings-Downs correlations, a key signature of the gravitational-wave background (GWB) predicted by general relativity, remains inconclusive. In this letter, we search for an isotropic non-tensorial GWB, allowed by general metric theories of gravity, in the NANOGrav 15-year data set. Our analysis reveals a Bayes factor of approximately 2.5, comparing the quadrupolar (tensor transverse, TT) correlations to the scalar transverse (ST) correlations, suggesting that the ST correlations provide a comparable explanation for the observed stochastic signal in the NANOGrav data. We obtain the median and the 90\% equal-tail amplitudes as AST = 7.8+5.1-3.5 × 10-15 at the frequency of 1/year. Furthermore, we find that the vector longitudinal (VL) and scalar longitudinal (SL) correlations are weakly and strongly disfavoured by data, respectively, yielding upper limits on the amplitudes: AVL95\% 1.7 × 10-15 and ASL95\% 7.4 × 10-17. Lastly, we fit the NANOGrav data with the general transverse (GT) correlations parameterized by a free parameter α. Our analysis yields α=1.74+1.18-1.41, thus excluding both the TT (α=3) and ST (α=0) models at the 90\% confidence level.
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