Did we hear the sound of the Universe boiling?: Analysis using the full fluid velocity profiles and NANOGrav 15-year data
Did we hear the sound of the Universe boiling?: Analysis using the full fluid velocity profiles and NANOGrav 15-year data
In this paper, we analyse sound waves arising from a cosmic phase transition where the full velocity profile is taken into account as an explanation for the gravitational wave spectrum observed by multiple pulsar timing array groups. Unlike the broken power law used in the literature, in this scenario the power law after the peak depends on the macroscopic properties of the phase transition, allowing for a better fit with pulsar timing array (PTA) data. We compare the best fit with that obtained using the usual broken power law and, unsurprisingly, find a better fit with the gravitational wave (GW) spectrum that utilizes the full velocity profile. We then discuss models that can produce the best-fit point and complementary probes using CMB experiments and searches for light particles in DUNE, IceCUBE-Gen2, neutrinoless double beta decay, and forward physics facilities at the LHC like FASER nu, etc.
astro-ph.HE, hep-ph
Ghosh, Tathagata
6721a297-c41c-4364-86c2-490df6b5d4b7
Ghoshal, Anish
61e009c4-becc-4864-a59d-e5a52820afe9
Guo, Huai-Ke
0f2d5e6a-5007-4a43-b226-690317dc2919
Hajkarim, Fazlollah
a370e073-b85f-4632-b9ce-520080f1bfde
King, Stephen F.
f8c616b7-0336-4046-a943-700af83a1538
Sinha, Kuver
020501cd-79e6-409c-b146-03678ec82600
Wang, Xin
6d556d7b-570c-409a-bd74-2803a4ad0257
White, Graham
652445c5-e1e5-4ff7-84e1-a3bca45e75d0
Ghosh, Tathagata
6721a297-c41c-4364-86c2-490df6b5d4b7
Ghoshal, Anish
61e009c4-becc-4864-a59d-e5a52820afe9
Guo, Huai-Ke
0f2d5e6a-5007-4a43-b226-690317dc2919
Hajkarim, Fazlollah
a370e073-b85f-4632-b9ce-520080f1bfde
King, Stephen F.
f8c616b7-0336-4046-a943-700af83a1538
Sinha, Kuver
020501cd-79e6-409c-b146-03678ec82600
Wang, Xin
6d556d7b-570c-409a-bd74-2803a4ad0257
White, Graham
652445c5-e1e5-4ff7-84e1-a3bca45e75d0
[Unknown type: UNSPECIFIED]
Abstract
In this paper, we analyse sound waves arising from a cosmic phase transition where the full velocity profile is taken into account as an explanation for the gravitational wave spectrum observed by multiple pulsar timing array groups. Unlike the broken power law used in the literature, in this scenario the power law after the peak depends on the macroscopic properties of the phase transition, allowing for a better fit with pulsar timing array (PTA) data. We compare the best fit with that obtained using the usual broken power law and, unsurprisingly, find a better fit with the gravitational wave (GW) spectrum that utilizes the full velocity profile. We then discuss models that can produce the best-fit point and complementary probes using CMB experiments and searches for light particles in DUNE, IceCUBE-Gen2, neutrinoless double beta decay, and forward physics facilities at the LHC like FASER nu, etc.
Text
2307.02259v1
- Author's Original
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e-pub ahead of print date: 3 July 2023
Keywords:
astro-ph.HE, hep-ph
Identifiers
Local EPrints ID: 480071
URI: http://eprints.soton.ac.uk/id/eprint/480071
PURE UUID: b53d6520-342a-49ca-9fb0-d5cfd35fcbcd
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Date deposited: 01 Aug 2023 16:42
Last modified: 17 Mar 2024 03:37
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Contributors
Author:
Tathagata Ghosh
Author:
Anish Ghoshal
Author:
Huai-Ke Guo
Author:
Fazlollah Hajkarim
Author:
Kuver Sinha
Author:
Xin Wang
Author:
Graham White
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