Journal
PHYSICAL REVIEW D
Volume 104, Issue 12, Pages -Publisher
AMER PHYSICAL SOC
DOI: 10.1103/PhysRevD.104.L121903
Keywords
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Funding
- European Research Council [ERC-2014-StG 639022-NewNGR]
- FCT/Portugal Grant [PD/BD/135425/2017]
- Ajuts de Personal Investigador predoctoral en Formacio program [APIF_18_19/226]
- FCT/Portugal [IF/00729/2015]
- Spanish Government [SGR-2017-754, CEX2019-000918-M, PID2019-105614GB-C21, PID2019-105614GB-C22]
- H2020 ERC Consolidator Grant Matter and strong field gravity: New frontiers in Einstein's theory [MaGRaTh-646597]
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Cosmological phase transitions occur via the nucleation, expansion, and collision of bubbles, with the resulting gravitational wave spectrum depending on the bubbles' wall velocity. Using holography, the wall velocity in a strongly coupled, non-Abelian, four-dimensional gauge theory is calculated from first principles. The dynamic determination of the wall velocity in relation to the nucleation temperature is verified, with ideal hydrodynamics providing an accurate description of the system except near the wall.
Cosmological phase transitions proceed via the nucleation of bubbles that subsequently expand and collide. The resulting gravitational wave spectrum depends crucially on the bubble wall velocity. We use holography to compute the wall velocity from first principles in a strongly coupled, non-Abelian, fourdimensional gauge theory. The wall velocity is determined dynamically in terms of the nucleation temperature. We verify that ideal hydrodynamics provides a good description of the system everywhere except near the wall.
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