Hellings-Downs curve deformed by ultralight vector dark matter

Omiya, Hidetoshi; Nomura, Kimihiro; Soda, Jiro

doi:10.1103/physrevd.108.104006

Phys. Rev. D

2023

DOI: 10.1103/physrevd.108.104006

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Hellings-Downs curve deformed by ultralight vector dark matter

Hidetoshi Omiya,

Kimihiro Nomura,

Jiro Soda

Abstract: Pulsar timing arrays (PTAs) provide a way to detect gravitational waves (GWs) at nanohertz frequencies. To ensure the detection of GWs, observational data must exhibit the Hellings-Downs angular correlation. It is also known that PTAs can probe ultralight dark matter. This paper considers possible contamination of the Hellings-Downs angular correlation by the ultralight dark matter. We find that ultralight vector dark matter can give rise to the deformation of the Hellings-Downs correlation curve. Thus, the He… Show more

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2024

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Cited by 2 publications

References 38 publications

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Angular correlation and deformed Hellings-Downs curve from spin-2 ultralight dark matter

Cai,

Zhang,

Zhang

2024

Phys. Rev. D

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Angular correlation and deformed Hellings-Downs curve from spin-2 ultralight dark matter

Cai,

Zhang,

Zhang

2024

Phys. Rev. D

View full text Add to dashboard Cite

Ultralight dark matter explanation of NANOGrav observations

Chowdhury,

Hait,

Mohanty

et al. 2024

Phys. Rev. D

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The angular correlation of pulsar residuals observed by NANOGrav and other pulsar timing array collaborations show evidence in support of the Hellings-Downs correlation expected from stochastic gravitational wave background (SGWB). In this paper, we offer a nongravitational wave explanation of the observed pulsar timing correlations as caused by an ultralight Lμ−Lτ gauge boson dark matter (ULDM). ULDM can affect the pulsar correlations in two ways. The gravitational potential of vector ULDM gives rise to a Shapiro time delay of the pulsar signals and a nontrivial angular correlation (as compared to the scalar ULDM case). In addition, if the pulsars have a nonzero charge of the dark matter gauge group, then the electric field of the local dark matter causes an oscillation of the pulsar and a corresponding Doppler shift of the pulsar signal. We point out that pulsars carry a significant charge of muons, and thus the Lμ−Lτ vector dark matter contributes to both the Doppler oscillations and the time delay of the pulsar signals. The synergy between these two effects provides a better fit to the shape of the angular correlation function, as observed by the NANOGrav collaboration, compared to the standard SGWB explanation or the SGWB combined with time delay explanations. Our analysis shows that, in addition to the SGWB signal, there may potentially be excess timing residuals attributable to the Lμ−Lτ ULDM. Published by the American Physical Society 2024

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Hellings-Downs curve deformed by ultralight vector dark matter

Cited by 2 publications

References 38 publications

Angular correlation and deformed Hellings-Downs curve from spin-2 ultralight dark matter

Angular correlation and deformed Hellings-Downs curve from spin-2 ultralight dark matter

Ultralight dark matter explanation of NANOGrav observations

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