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Main Author: Couture, Gilles
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2508.14792
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author Couture, Gilles
author_facet Couture, Gilles
contents Using Monte Carlo techniques, we calculate the bremsstrahlung spectrum that protons and electrons in the solar wind would produce when encountering dark matter (DM) particles within the solar system. We consider two types of interactions for the DM: one where a spin-1/2 neutral DM particle interacts with matter through the exchange of a lighter neutral scalar DM particle and one where a scalar neutral DM particle interacts directly with the matter particle. We consider three wavelengths: 21 cm, 3 mm, and 12 microns. In order to estimate the significance of the signal, we compare our results to experimental results from ARCADE2 and PLANCK, and consider the sensitivities of three telescopes: VLA, ALMA and KECK. We find that in order to produce an observable signal in the first scenario, the neutral fermion must have a mass comparable to the solar wind particle while the exchanged particle must have a mass typically $few\times 10^5$ smaller. The scalar direct interaction however appears beyond reach for any reasonable coupling.
format Preprint
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institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Solar wind bremsstrahlung in our Solar System at 21cm, 3mm, and 12microns Wavelengths
Couture, Gilles
High Energy Physics - Phenomenology
Using Monte Carlo techniques, we calculate the bremsstrahlung spectrum that protons and electrons in the solar wind would produce when encountering dark matter (DM) particles within the solar system. We consider two types of interactions for the DM: one where a spin-1/2 neutral DM particle interacts with matter through the exchange of a lighter neutral scalar DM particle and one where a scalar neutral DM particle interacts directly with the matter particle. We consider three wavelengths: 21 cm, 3 mm, and 12 microns. In order to estimate the significance of the signal, we compare our results to experimental results from ARCADE2 and PLANCK, and consider the sensitivities of three telescopes: VLA, ALMA and KECK. We find that in order to produce an observable signal in the first scenario, the neutral fermion must have a mass comparable to the solar wind particle while the exchanged particle must have a mass typically $few\times 10^5$ smaller. The scalar direct interaction however appears beyond reach for any reasonable coupling.
title Solar wind bremsstrahlung in our Solar System at 21cm, 3mm, and 12microns Wavelengths
topic High Energy Physics - Phenomenology
url https://arxiv.org/abs/2508.14792