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Main Author: Pinheiro, João Paulo
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2510.00142
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author Pinheiro, João Paulo
author_facet Pinheiro, João Paulo
contents We present a comprehensive theoretical analysis of neutrino-induced decoherence in macroscopic matter-wave interferometry experiments designed to search for dark matter and beyond-Standard Model physics. Our calculation includes contributions from the cosmic neutrino background (C$ν$B), solar neutrinos, and reactor antineutrinos, accounting for coherent scattering processes across nuclear, atomic, and macroscopic length scales. Within the Standard Model, we find negligible decoherence rates for planned experiments such as MAQRO ($s/σ_s \sim 10^{-27}$) and terrestrial interferometers like Pino ($s/σ_s \sim 10^{-22}$). However, these experiments achieve competitive sensitivity to beyond-Standard Model physics through light vector mediator interactions, with C$ν$B constraining coupling products to $g_νg_n \lesssim 10^{-17}$ for $Z'$ masses below 1 eV. Our results provide a theoretical framework for interpreting matter-wave interferometry measurements in terms of neutrino interaction physics and for deriving constraints on BSM models from experimental data.
format Preprint
id arxiv_https___arxiv_org_abs_2510_00142
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Neutrino backgrounds in matter-wave interferometry: implications for dark matter searches and beyond-Standard Model physics
Pinheiro, João Paulo
High Energy Physics - Phenomenology
High Energy Physics - Experiment
Quantum Physics
We present a comprehensive theoretical analysis of neutrino-induced decoherence in macroscopic matter-wave interferometry experiments designed to search for dark matter and beyond-Standard Model physics. Our calculation includes contributions from the cosmic neutrino background (C$ν$B), solar neutrinos, and reactor antineutrinos, accounting for coherent scattering processes across nuclear, atomic, and macroscopic length scales. Within the Standard Model, we find negligible decoherence rates for planned experiments such as MAQRO ($s/σ_s \sim 10^{-27}$) and terrestrial interferometers like Pino ($s/σ_s \sim 10^{-22}$). However, these experiments achieve competitive sensitivity to beyond-Standard Model physics through light vector mediator interactions, with C$ν$B constraining coupling products to $g_νg_n \lesssim 10^{-17}$ for $Z'$ masses below 1 eV. Our results provide a theoretical framework for interpreting matter-wave interferometry measurements in terms of neutrino interaction physics and for deriving constraints on BSM models from experimental data.
title Neutrino backgrounds in matter-wave interferometry: implications for dark matter searches and beyond-Standard Model physics
topic High Energy Physics - Phenomenology
High Energy Physics - Experiment
Quantum Physics
url https://arxiv.org/abs/2510.00142