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Autori principali: Herrero-García, Juan, Marciano, Simone, Racker, Juan, Vatsyayan, Drona
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2510.18962
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author Herrero-García, Juan
Marciano, Simone
Racker, Juan
Vatsyayan, Drona
author_facet Herrero-García, Juan
Marciano, Simone
Racker, Juan
Vatsyayan, Drona
contents We present a simple and broadly applicable extension of the Casas-Ibarra parametrisation that captures the structure of all Majorana neutrino mass models. Building directly on the original formulation, our approach naturally accommodates additional degrees of freedom and provides a unified, minimal framework for parametrising the Yukawa sector. It significantly simplifies both analytical treatments and numerical scans, and can be universally applied to any Majorana neutrino mass model, regardless of the underlying dynamics. The approach also offers a unified framework for classifying neutrino mass models according to the structure of the neutrino mass matrix, which naturally motivates the proposal of an extended version of the Scotogenic Model. This classification scheme yields tree-level (loop-level) representative models: the seesaw (Scotogenic Model), the linear seesaw (the Generalised Scotogenic Model), and the linear plus inverse seesaw (the Extended Scotogenic Model). We provide ready-to-use explicit expressions for several well-known scenarios, including the Zee model where one of the Yukawa matrices is antisymmetric.
format Preprint
id arxiv_https___arxiv_org_abs_2510_18962
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Generalised Casas-Ibarra Parametrisation for Majorana Neutrino Masses
Herrero-García, Juan
Marciano, Simone
Racker, Juan
Vatsyayan, Drona
High Energy Physics - Phenomenology
We present a simple and broadly applicable extension of the Casas-Ibarra parametrisation that captures the structure of all Majorana neutrino mass models. Building directly on the original formulation, our approach naturally accommodates additional degrees of freedom and provides a unified, minimal framework for parametrising the Yukawa sector. It significantly simplifies both analytical treatments and numerical scans, and can be universally applied to any Majorana neutrino mass model, regardless of the underlying dynamics. The approach also offers a unified framework for classifying neutrino mass models according to the structure of the neutrino mass matrix, which naturally motivates the proposal of an extended version of the Scotogenic Model. This classification scheme yields tree-level (loop-level) representative models: the seesaw (Scotogenic Model), the linear seesaw (the Generalised Scotogenic Model), and the linear plus inverse seesaw (the Extended Scotogenic Model). We provide ready-to-use explicit expressions for several well-known scenarios, including the Zee model where one of the Yukawa matrices is antisymmetric.
title Generalised Casas-Ibarra Parametrisation for Majorana Neutrino Masses
topic High Energy Physics - Phenomenology
url https://arxiv.org/abs/2510.18962