Thermal Resummation and Phase Transitions
David Curtin,David Curtin,Patrick Meade,Harikrishnan Ramani,Harikrishnan Ramani,Harikrishnan Ramani +5 more
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In this paper, the authors define a thermal resummation procedure based on partial dressing (PD) for general BSM calculations of phase transitions beyond the high-temperature approximation, which is numerically nearly as efficient as old incorrect methods, while yielding identical results to the full PD calculation.Abstract:
The consequences of phase transitions in the early universe are becoming testable in a variety of manners, from colliders physics to gravitational wave astronomy. In particular one phase transition we know of, the electroweak phase transition (EWPT), could potentially be first order in BSM scenarios and testable in the near future. If confirmed this could provide a mechanism for baryogenesis, which is one of the most important outstanding questions in physics. To reliably make predictions it is necessary to have full control of the finite temperature scalar potentials. However, as we show the standard methods used in BSM physics to improve phase transition calculations, resumming hard thermal loops, introduces significant errors into the scalar potential. In addition, the standard methods make it impossible to match theories to an EFT description reliably. In this paper we define a thermal resummation procedure based on partial dressing (PD) for general BSM calculations of phase transitions beyond the high-temperature approximation. Additionally, we introduce the modified optimized partial dressing (OPD) procedure, which is numerically nearly as efficient as old incorrect methods, while yielding identical results to the full PD calculation. This can be easily applied to future BSM studies of phase transitions in the early universe. As an example, we show that in unmixed singlet scalar extensions of the SM, the (O)PD calculations make new phenomenological predictions compared to previous analyses. An important future application is the study of EFTs at finite temperature.read more
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Detecting gravitational waves from cosmological phase transitions with LISA: an update
Chiara Caprini,Mikael Chala,Mikael Chala,G. C. Dorsch,G. C. Dorsch,Mark Hindmarsh,Mark Hindmarsh,Stephan J. Huber,Thomas Konstandin,Jonathan Kozaczuk,Jonathan Kozaczuk,Jonathan Kozaczuk,Germano Nardini,Jose Miguel No,Jose Miguel No,Kari Rummukainen,Pedro Schwaller,Geraldine Servant,Anders Tranberg,David J. Weir,David J. Weir +20 more
TL;DR: In this paper, the potential for observing gravitational waves from cosmological phase transitions with LISA was investigated, based on current state-of-the-art simulations of sound waves in the cosmic fluid after the phase transition completes.
Journal ArticleDOI
Detecting gravitational waves from cosmological phase transitions with LISA: an update
Chiara Caprini,Mikael Chala,Mikael Chala,G. C. Dorsch,G. C. Dorsch,Mark Hindmarsh,Mark Hindmarsh,Stephan J. Huber,Thomas Konstandin,Jonathan Kozaczuk,Jonathan Kozaczuk,Jonathan Kozaczuk,Germano Nardini,Jose Miguel No,Jose Miguel No,Kari Rummukainen,Pedro Schwaller,Geraldine Servant,Anders Tranberg,David J. Weir,David J. Weir +20 more
TL;DR: In this paper, the potential for observing gravitational waves from cosmological phase transitions with LISA was investigated, based on current state-of-the-art simulations of sound waves in the cosmic fluid after the phase transition completes.
Journal ArticleDOI
On the validity of perturbative studies of the electroweak phase transition in the Two Higgs Doublet model
Kimmo Kainulainen,Venus Keus,Lauri Niemi,Kari Rummukainen,Tuomas V. I. Tenkanen,Ville Vaskonen +5 more
TL;DR: In this paper, a nonperturbative study of the electroweak phase transition in the Two Higgs Doublet model was performed using a dimensionally reduced effective theory at high temperature.
Journal ArticleDOI
Theoretical uncertainties for cosmological first-order phase transitions
Djuna Croon,Oliver Gould,Philipp Schicho,Philipp Schicho,Tuomas V. I. Tenkanen,Graham White,Graham White +6 more
TL;DR: In this paper, the authors examine the magnitude of theoretical uncertainties in perturbative calculations of fist-order phase transitions, using the Standard Model effective field theory as their guide, and find large uncertainties due to renormalization scale dependence, which amount to two to three orders of magnitude uncertainty in the peak gravitational wave amplitude, relevant to experiments such as LISA.
Journal ArticleDOI
Hearing without seeing: gravitational waves from hot and cold hidden sectors
TL;DR: In this article, the authors studied the spectrum of gravitational waves produced by a first order phase transition in a hidden sector that is colder than the visible sector, where bubbles of the hidden sector vacuum can be nucleated through either thermal fluctuations or quantum tunnelling.
References
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