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Preprint PUBDB-2024-01062
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Nonthermal Heavy Dark Matter from a First-Order Phase Transition

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2024

[10.3204/PUBDB-2024-01062]  GO

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Report No.: CERN-TH-2024-031; DESY-24-031; arXiv:2403.03252

Abstract: We study nonthermal production of heavy dark matter from the dynamics of the background scalar field during a first-order phase transition, predominantly from bubble collisions. In scenarios where bubble walls achieve runaway behavior and get boosted to very high energies, we find that it is possible to produce dark matter with mass several orders of magnitude above the symmetry breaking scale or the highest temperature ever reached by the thermal plasma. We also demonstrate that the existing formalism for calculating particle production from bubble dynamics in a first-order phase transition is not gauge invariant, and can lead to spurious results. While a rigorous and complete resolution of this problem is still lacking, we provide a practical prescription for the computation that avoids unphysical contributions and should provide reliable order-of-magnitude estimates of this effect. Furthermore, we point out the importance of three-body decays of the background field excitations into scalars and gauge bosons, which provide the dominant contributions at energy scales above the scale of symmetry breaking. Using our improved results, we find that scalar, fermion, and vector dark matter are all viable across a large range of mass scales, from O(10) TeV to a few orders of magnitude below the Planck scale, and the corresponding phase transitions can be probed with current and future gravitational wave experiments.

Keyword(s): dark matter: heavy ; symmetry breaking: scale ; scale: Planck ; mass: scale ; invariance: gauge ; plasma: thermal ; dark matter: vector ; field theory: scalar ; critical phenomena ; bubble ; background field ; temperature ; excited state ; gravitational radiation ; gauge field theory: SO(10) ; background ; VHE ; gauge boson ; resolution ; TeV


Note: 41 pages, 3 figures
Contributing Institute(s):
  1. Theorie-Gruppe (T)
Research Program(s):
  1. 611 - Fundamental Particles and Forces (POF4-611) (POF4-611)
  2. DFG project G:(GEPRIS)390833306 - EXC 2121: Quantum Universe (390833306) (390833306)
Experiment(s):
  1. No specific instrument

Appears in the scientific report 2024
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OpenAccess ; Published
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http://join2-wiki.gsi.de/foswiki/pub/Main/Artwork/join2_logo100x88.png Journal Article  ;  ;  ;
Nonthermal heavy dark matter from a first-order phase transition
Journal of high energy physics 12(12), 190 () [10.1007/JHEP12(2024)190]  GO OpenAccess  Download fulltext Files  Download fulltextFulltext by arXiv.org BibTeX | EndNote: XML, Text | RIS

 Record created 2024-03-04, last modified 2025-06-26
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