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Main Authors: Casas, Gonzalo F., Ibáñez, Luis E., Marchesano, Fernando
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2406.14609
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author Casas, Gonzalo F.
Ibáñez, Luis E.
Marchesano, Fernando
author_facet Casas, Gonzalo F.
Ibáñez, Luis E.
Marchesano, Fernando
contents We study how tiny Dirac neutrino masses consistent with experimental constraints can arise in string theory SM-like vacua. We use as a laboratory 4d ${\cal N}=1$ type IIA Calabi--Yau orientifold compactifications, and in particular recent results on Yukawa couplings at infinite field-space distance. In this regime we find Dirac neutrino masses of the form $m_ν\simeq g_ν\langle H\rangle$, with $g_ν$ the gauge coupling of the massive $U(1)$ under which the right-handed neutrinos $ν_R$ are charged, and which should be in the range $g_ν\simeq 10^{-14}-10^{-12}$ to reproduce neutrino data. The neutrino mass suppression occurs because the right-handed neutrino kinetic term behaves as $K_{νν} \simeq 1 /g_ν^2 $. At the same time a tower of $ν_R$-like states appears with characteristic scale $m_0\simeq g_ν^2M_{\rm P}\simeq 0.1-500$ eV, in agreement with Swampland expectations. Two large hidden dimensions only felt by the $ν_R$ sector arise at the same scale, while the string scale is around $M_s\simeq g_νM_{\rm P}\simeq 10-700$ TeV. Some phenomenological implications and model building challenges are described. As a byproduct, independently of the neutrino issue, we argue that a single large dimension in the context of SM-like type IIA Calabi--Yau orientifolds leads to too small Yukawa couplings for quarks and charged leptons.
format Preprint
id arxiv_https___arxiv_org_abs_2406_14609
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle On small Dirac Neutrino Masses in String Theory
Casas, Gonzalo F.
Ibáñez, Luis E.
Marchesano, Fernando
High Energy Physics - Theory
High Energy Physics - Phenomenology
We study how tiny Dirac neutrino masses consistent with experimental constraints can arise in string theory SM-like vacua. We use as a laboratory 4d ${\cal N}=1$ type IIA Calabi--Yau orientifold compactifications, and in particular recent results on Yukawa couplings at infinite field-space distance. In this regime we find Dirac neutrino masses of the form $m_ν\simeq g_ν\langle H\rangle$, with $g_ν$ the gauge coupling of the massive $U(1)$ under which the right-handed neutrinos $ν_R$ are charged, and which should be in the range $g_ν\simeq 10^{-14}-10^{-12}$ to reproduce neutrino data. The neutrino mass suppression occurs because the right-handed neutrino kinetic term behaves as $K_{νν} \simeq 1 /g_ν^2 $. At the same time a tower of $ν_R$-like states appears with characteristic scale $m_0\simeq g_ν^2M_{\rm P}\simeq 0.1-500$ eV, in agreement with Swampland expectations. Two large hidden dimensions only felt by the $ν_R$ sector arise at the same scale, while the string scale is around $M_s\simeq g_νM_{\rm P}\simeq 10-700$ TeV. Some phenomenological implications and model building challenges are described. As a byproduct, independently of the neutrino issue, we argue that a single large dimension in the context of SM-like type IIA Calabi--Yau orientifolds leads to too small Yukawa couplings for quarks and charged leptons.
title On small Dirac Neutrino Masses in String Theory
topic High Energy Physics - Theory
High Energy Physics - Phenomenology
url https://arxiv.org/abs/2406.14609