The NANOGrav 12.5-year Data Set: Search for Non-Einsteinian Polarization Modes in the Gravitational-wave Background

Abstract

We search NANOGrav's 12.5 yr data set for evidence of a gravitational-wave background (GWB) with all the spatial correlations allowed by general metric theories of gravity. We find no substantial evidence in favor of the existence of such correlations in our data. We find that scalar-transverse (ST) correlations yield signal-to-noise ratios and Bayes factors that are higher than quadrupolar (tensor-transverse, TT) correlations. Specifically, we find ST correlations with a signal-to-noise ratio of 2.8 that are preferred over TT correlations (Hellings and Downs correlations) with Bayesian odds of about 20:1. However, the significance of ST correlations is reduced dramatically when we include modeling of the solar system ephemeris systematics and/or remove pulsar J0030+0451 entirely from consideration. Even taking the nominal signal-to-noise ratios at face value, analyses of simulated data sets show that such values are not extremely unlikely to be observed in cases where only the usual TT modes are present in the GWB. In the absence of a detection of any polarization mode of gravity, we place upper limits on their amplitudes for a spectral index of γ = 5 and a reference frequency of fyr = 1 yr−1. Among the upper limits for eight general families of metric theories of gravity, we find the values of ATT95%=(9.7±0.4)×10−16 and AST95%=(1.4±0.03)×10−15 for the family of metric spacetime theories that contain both TT and ST modes.

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Keywords

Gravitational Waves, Pulsars, General Relativity, Non-Standard Theories of Gravity, Pulsar Timing Method

Citation

Arzoumanian, Z., Baker, P. T., Blumer, H., Bécsy, B., Brazier, A., Brook, P. R., Burke-Spolaor, S., Charisi, M., Chatterjee, S., Chen, S., Cordes, J. M., Cornish, N. J., Crawford, F., Cromartie, H. T., DeCesar, M. E., DeGan, D. M., Demorest, P. B., Dolch, T., Drachler, B., Ellis, J. A., Ferrara, E. C., Fiore, W., Fonseca, E., Garver-Daniels, N., Gentile, P. A., Good, D. C., Hazboun, J. S., Holgado, A. M., Islo, K., Jennings, R. J., Jones, M. L., Kaiser, A. R., Kaplan, D. L., Kelley, L. Z., Key, J. S., Laal, N., Lam, M. T., W. Lazio, T. J., Lorimer, D. R., Liu, T., Luo, J., Lynch, R. S., Madison, D. R., McEwen, A., McLaughlin, M. A., Mingarelli, C. M. F., Ng, C., Nice, D. J., Olum, K. D., Pennucci, T. T., Pol, N. S., Ransom, S. M., Ray, P. S., Romano, J. D., Sardesai, S. C., Shapiro-Albert, B. J., Siemens, X., Simon, J., Siwek, M. S., Spiewak, R., Stairs, I. H., Stinebring, D. R., Stovall, K., Sun, J. P., Swiggum, J. K., Taylor, S. R., Turner, J. E., Vallisneri, M., Vigeland, S. J., Wahl, H. M., & Witt, C. A. (2021). The NANOGrav 12.5-year Data Set: Search for Non-Einsteinian Polarization Modes in the Gravitational-wave Background. The Astrophysical Journal Letters, 923(2), L22. https://doi.org/10.3847/2041-8213/ac401c

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