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Main Author: Yang, Masaki J. S.
Format: Preprint
Published: 2023
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Online Access:https://arxiv.org/abs/2312.01693
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author Yang, Masaki J. S.
author_facet Yang, Masaki J. S.
contents In this paper, we evaluate the (second) lightest mass $M_{1,2}$ of right-handed neutrino $ν_{R1,2}$ in grand unified theories with the type-I seesaw mechanism that predicts an almost massless neutrino $m_{1 \, \rm or \, 3} \sim 0$. By chiral perturbative treatment, the masses $M_{1,2}$ are expressed as $M_{1} = m_{D1}^{2}/m_{11} , \, M_{2} = m_{D2}^{2} m_{11} / (m_{11} m_{22} - m_{12}^{2})$ with the mass matrix of left-handed neutrinos $m$ in the diagonal basis of the Dirac mass matrix $m_{D}$. Assuming $m_{Di}$ and the unitary matrix $V$ in the singular value decomposition $(m_{D})_{ij} = V_{ik} m_{D k} U^{\dagger}_{kj}$ are close to observed fermion masses and the CKM matrix, $M_{1,2}$ and their allowed regions are expressed by parameters in the low energy and unknown phases. As a result, for $m_{D1} \simeq 0.5$ MeV and $m_{D2} \simeq 100$ MeV, we obtain $M_{1}^{\rm NH} \simeq 3 \times 10^{4 - 6}$ GeV and $M_{2}^{\rm NH} \simeq 3 \times 10^{6-8}$ GeV in the NH, $M_{1}^{\rm IH} \simeq 5 \times 10^{3 - 4}$ GeV and $M_{2}^{\rm IH} \simeq 4 \times 10^{8-9}$ GeV in the IH. These upper and lower bounds are proportional to $m_{Di}^{2}$ or $m_{D1} m_{D2}$.
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institution arXiv
publishDate 2023
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spellingShingle Allowed region for the (second) lightest mass $M_{1,2}$ of right-handed neutrino $ν_{R 1,2}$ with $SO (10)$-inspired relations and sequential dominance
Yang, Masaki J. S.
High Energy Physics - Phenomenology
In this paper, we evaluate the (second) lightest mass $M_{1,2}$ of right-handed neutrino $ν_{R1,2}$ in grand unified theories with the type-I seesaw mechanism that predicts an almost massless neutrino $m_{1 \, \rm or \, 3} \sim 0$. By chiral perturbative treatment, the masses $M_{1,2}$ are expressed as $M_{1} = m_{D1}^{2}/m_{11} , \, M_{2} = m_{D2}^{2} m_{11} / (m_{11} m_{22} - m_{12}^{2})$ with the mass matrix of left-handed neutrinos $m$ in the diagonal basis of the Dirac mass matrix $m_{D}$. Assuming $m_{Di}$ and the unitary matrix $V$ in the singular value decomposition $(m_{D})_{ij} = V_{ik} m_{D k} U^{\dagger}_{kj}$ are close to observed fermion masses and the CKM matrix, $M_{1,2}$ and their allowed regions are expressed by parameters in the low energy and unknown phases. As a result, for $m_{D1} \simeq 0.5$ MeV and $m_{D2} \simeq 100$ MeV, we obtain $M_{1}^{\rm NH} \simeq 3 \times 10^{4 - 6}$ GeV and $M_{2}^{\rm NH} \simeq 3 \times 10^{6-8}$ GeV in the NH, $M_{1}^{\rm IH} \simeq 5 \times 10^{3 - 4}$ GeV and $M_{2}^{\rm IH} \simeq 4 \times 10^{8-9}$ GeV in the IH. These upper and lower bounds are proportional to $m_{Di}^{2}$ or $m_{D1} m_{D2}$.
title Allowed region for the (second) lightest mass $M_{1,2}$ of right-handed neutrino $ν_{R 1,2}$ with $SO (10)$-inspired relations and sequential dominance
topic High Energy Physics - Phenomenology
url https://arxiv.org/abs/2312.01693