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Hauptverfasser: Dehghani, Parham, Frank, Mariana, Fuks, Benjamin
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2506.06159
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author Dehghani, Parham
Frank, Mariana
Fuks, Benjamin
author_facet Dehghani, Parham
Frank, Mariana
Fuks, Benjamin
contents We investigate the sensitivity of future high-energy muon colliders to heavy Majorana neutrinos, considering both opposite-sign ($μ^+μ^-$) and same-sign ($μ^+μ^+$) collision modes. We focus on $μ^+μ^-$ colliders operating at centre-of-mass energies of 1, 3 and 10 TeV, as well as the proposed $μ$TRISTAN facility at 2 TeV, and we analyse the production of heavy neutrinos via vector boson fusion in the $t$-channel, a mechanism that becomes dominant in the multi-TeV regime. We evaluate its exclusion potential in terms of the heavy neutrino mass and the mixing of the heavy neutrino with its Standard Model counterparts, using both cut-based selections and boosted decision trees trained to exploit the distinct kinematic signatures of heavy Majorana neutrino exchanges. Our results demonstrate the complementarity between collider configurations, and show that active-sterile mixing angles as small as 0.001 could be probed for neutrino masses up to 100 TeV, an experimentally inaccessible region of the parameter space at current facilities. Altogether, this work establishes the discovery potential of muon colliders for testing super-heavy Majorana neutrinos, complementary to conventional probes, and provides compelling motivation for the next generation of high-energy lepton colliders.
format Preprint
id arxiv_https___arxiv_org_abs_2506_06159
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Vector Boson Fusion Signatures of Superheavy Majorana Neutrinos at Muon Colliders
Dehghani, Parham
Frank, Mariana
Fuks, Benjamin
High Energy Physics - Phenomenology
We investigate the sensitivity of future high-energy muon colliders to heavy Majorana neutrinos, considering both opposite-sign ($μ^+μ^-$) and same-sign ($μ^+μ^+$) collision modes. We focus on $μ^+μ^-$ colliders operating at centre-of-mass energies of 1, 3 and 10 TeV, as well as the proposed $μ$TRISTAN facility at 2 TeV, and we analyse the production of heavy neutrinos via vector boson fusion in the $t$-channel, a mechanism that becomes dominant in the multi-TeV regime. We evaluate its exclusion potential in terms of the heavy neutrino mass and the mixing of the heavy neutrino with its Standard Model counterparts, using both cut-based selections and boosted decision trees trained to exploit the distinct kinematic signatures of heavy Majorana neutrino exchanges. Our results demonstrate the complementarity between collider configurations, and show that active-sterile mixing angles as small as 0.001 could be probed for neutrino masses up to 100 TeV, an experimentally inaccessible region of the parameter space at current facilities. Altogether, this work establishes the discovery potential of muon colliders for testing super-heavy Majorana neutrinos, complementary to conventional probes, and provides compelling motivation for the next generation of high-energy lepton colliders.
title Vector Boson Fusion Signatures of Superheavy Majorana Neutrinos at Muon Colliders
topic High Energy Physics - Phenomenology
url https://arxiv.org/abs/2506.06159