Cosmic strings gravitational wave probe of leptogenesis: thermal, non-thermal, near-resonant and flavourful
Cosmic strings gravitational wave probe of leptogenesis: thermal, non-thermal, near-resonant and flavourful
Breaking a global or local U(1)B-L symmetry at high scales simultaneously generates Majorana masses for heavy right-handed neutrinos and produces a network of cosmic strings. The evolution and decay of these strings source a stochastic gravitational-wave background that may be probed by current and future gravitational-wave experiments, while the decays of the resulting massive right-handed neutrinos can generate the baryon asymmetry of the Universe via leptogenesis. We derive analytical bounds for successful leptogenesis with a global and a local U(1)B-L symmetry, separately finding an absolute lower bound on the lightest right-handed neutrino mass M1 > 1.74 x 108 GeV for thermal initial conditions and M1 >0 (106) GeV for non-thermal initial conditions. Allowing for near-resonant leptogenesis relaxes these bounds to TeV scale in both cases making it a viable target at collider searches complementing the GW signals. Full flavour effects are included, and crucially, we determine the region where successful leptogenesis can be probed through gravitational-wave observations in upcoming experiments such as LISA and Einstein Telescope. Importantly, we find that flavour effects rescue regions of the parameter space that are ruled out due to current CMB or gravitational wave measurements.
astro-ph.CO, hep-ph
Ghoshal, Anish
61e009c4-becc-4864-a59d-e5a52820afe9
Spalding, Angus
62746a0e-b341-46c3-8763-d0820be48ec3
White, Graham
652445c5-e1e5-4ff7-84e1-a3bca45e75d0
Ghoshal, Anish
61e009c4-becc-4864-a59d-e5a52820afe9
Spalding, Angus
62746a0e-b341-46c3-8763-d0820be48ec3
White, Graham
652445c5-e1e5-4ff7-84e1-a3bca45e75d0
[Unknown type: UNSPECIFIED]
Abstract
Breaking a global or local U(1)B-L symmetry at high scales simultaneously generates Majorana masses for heavy right-handed neutrinos and produces a network of cosmic strings. The evolution and decay of these strings source a stochastic gravitational-wave background that may be probed by current and future gravitational-wave experiments, while the decays of the resulting massive right-handed neutrinos can generate the baryon asymmetry of the Universe via leptogenesis. We derive analytical bounds for successful leptogenesis with a global and a local U(1)B-L symmetry, separately finding an absolute lower bound on the lightest right-handed neutrino mass M1 > 1.74 x 108 GeV for thermal initial conditions and M1 >0 (106) GeV for non-thermal initial conditions. Allowing for near-resonant leptogenesis relaxes these bounds to TeV scale in both cases making it a viable target at collider searches complementing the GW signals. Full flavour effects are included, and crucially, we determine the region where successful leptogenesis can be probed through gravitational-wave observations in upcoming experiments such as LISA and Einstein Telescope. Importantly, we find that flavour effects rescue regions of the parameter space that are ruled out due to current CMB or gravitational wave measurements.
Text
2512.14684v2
- Author's Original
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Accepted/In Press date: 16 December 2025
Additional Information:
Typo corrected
Keywords:
astro-ph.CO, hep-ph
Identifiers
Local EPrints ID: 509643
URI: http://eprints.soton.ac.uk/id/eprint/509643
PURE UUID: 1cefb5af-6c91-414f-827f-08e502a75786
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Date deposited: 27 Feb 2026 17:41
Last modified: 27 Feb 2026 17:41
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Contributors
Author:
Anish Ghoshal
Author:
Angus Spalding
Author:
Graham White
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