Footprints of the QCD Crossover on Cosmological Gravitational Waves at Pulsar Timing Arrays

Gabriele Franciolini; Davide Racco; Fabrizio Rompineve

doi:10.1103/PhysRevLett.132.081001

Footprints of the QCD Crossover on Cosmological Gravitational Waves at Pulsar Timing Arrays

Gabriele Franciolini, Davide Racco, Fabrizio Rompineve

Departament de Física

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Pulsar timing arrays (PTAs) have reported evidence for a stochastic gravitational wave (GW) background at nanohertz frequencies, possibly originating in the early Universe. We show that the spectral shape of the low-frequency (causality) tail of GW signals sourced at temperatures around 𝑇≳1 GeV is distinctively affected by confinement of strong interactions (QCD), due to the corresponding sharp decrease in the number of relativistic species, and significantly deviates from ∼𝑓3 commonly adopted in the literature. Bayesian analyses in the NANOGrav 15 years and the previous international PTA datasets reveal a significant improvement in the fit with respect to cubic power-law spectra, previously employed for the causality tail. While no conclusion on the nature of the signal can be drawn at the moment, our results show that the inclusion of standard model effects on cosmological GWs can have a decisive impact on model selection.

Idioma original	Anglès
Número d’article	189901
Nombre de pàgines	9
Revista	Phys.Rev.Lett.
Volum	133
DOIs	https://doi.org/10.1103/PhysRevLett.132.081001
Estat de la publicació	Publicada - 20 de febr. 2024

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10.1103/PhysRevLett.132.081001

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title = "Footprints of the QCD Crossover on Cosmological Gravitational Waves at Pulsar Timing Arrays",

abstract = "Pulsar timing arrays (PTAs) have reported evidence for a stochastic gravitational wave (GW) background at nanohertz frequencies, possibly originating in the early Universe. We show that the spectral shape of the low-frequency (causality) tail of GW signals sourced at temperatures around 𝑇≳1 GeV is distinctively affected by confinement of strong interactions (QCD), due to the corresponding sharp decrease in the number of relativistic species, and significantly deviates from ∼𝑓3 commonly adopted in the literature. Bayesian analyses in the NANOGrav 15 years and the previous international PTA datasets reveal a significant improvement in the fit with respect to cubic power-law spectra, previously employed for the causality tail. While no conclusion on the nature of the signal can be drawn at the moment, our results show that the inclusion of standard model effects on cosmological GWs can have a decisive impact on model selection.",

author = "Gabriele Franciolini and Davide Racco and Fabrizio Rompineve",

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doi = "10.1103/PhysRevLett.132.081001",

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T1 - Footprints of the QCD Crossover on Cosmological Gravitational Waves at Pulsar Timing Arrays

AU - Franciolini, Gabriele

AU - Racco, Davide

AU - Rompineve, Fabrizio

PY - 2024/2/20

Y1 - 2024/2/20

N2 - Pulsar timing arrays (PTAs) have reported evidence for a stochastic gravitational wave (GW) background at nanohertz frequencies, possibly originating in the early Universe. We show that the spectral shape of the low-frequency (causality) tail of GW signals sourced at temperatures around 𝑇≳1 GeV is distinctively affected by confinement of strong interactions (QCD), due to the corresponding sharp decrease in the number of relativistic species, and significantly deviates from ∼𝑓3 commonly adopted in the literature. Bayesian analyses in the NANOGrav 15 years and the previous international PTA datasets reveal a significant improvement in the fit with respect to cubic power-law spectra, previously employed for the causality tail. While no conclusion on the nature of the signal can be drawn at the moment, our results show that the inclusion of standard model effects on cosmological GWs can have a decisive impact on model selection.

AB - Pulsar timing arrays (PTAs) have reported evidence for a stochastic gravitational wave (GW) background at nanohertz frequencies, possibly originating in the early Universe. We show that the spectral shape of the low-frequency (causality) tail of GW signals sourced at temperatures around 𝑇≳1 GeV is distinctively affected by confinement of strong interactions (QCD), due to the corresponding sharp decrease in the number of relativistic species, and significantly deviates from ∼𝑓3 commonly adopted in the literature. Bayesian analyses in the NANOGrav 15 years and the previous international PTA datasets reveal a significant improvement in the fit with respect to cubic power-law spectra, previously employed for the causality tail. While no conclusion on the nature of the signal can be drawn at the moment, our results show that the inclusion of standard model effects on cosmological GWs can have a decisive impact on model selection.

UR - http://inspirehep.net/record/2672883

UR - https://www.scopus.com/pages/publications/85185395179

U2 - 10.1103/PhysRevLett.132.081001

DO - 10.1103/PhysRevLett.132.081001

M3 - Article

C2 - 38457711

VL - 133

JO - Phys.Rev.Lett.

JF - Phys.Rev.Lett.

M1 - 189901

ER -

Footprints of the QCD Crossover on Cosmological Gravitational Waves at Pulsar Timing Arrays

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