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Main Author: Krasnikov, N. V.
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2405.03325
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author Krasnikov, N. V.
author_facet Krasnikov, N. V.
contents We propose two generalizations of the dark photon model which predict the suppressed elastic dark matter nuclei cross section in comparison with the corresponding prediction of the dark photon model. In the first model the main difference from dark photon model is that the mixing parameter $ε$ is nonlocal formfactor $ε(q^2)= \frac{q^2}{Λ^2}V(\frac{q^2}{Λ^2}) $ depending on the square of the momentum transfer $q^2$. Here $V(\frac{q^2}{Λ^2})$ is an entire function of the growth $ρ\geq \frac{1}{2}$ and $Λ$ is nonlocal scale. In this model our world and dark world are described by renormalizable field theories while the communication between them is performed by nonlocal interaction. The second model is renormalizable model where besides dark photon field $A'$ additional vector boson $Z'$ interacts with $B - L$ current. The communication between our world and dark world is performed due to nonzero kinetic mixing between $Z'$ and $A'$ fields. The predictions of the models for the search for dark matter at the accelerators don't contain additional suppression factors.
format Preprint
id arxiv_https___arxiv_org_abs_2405_03325
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Dark matter models with suppressed dark matter nuclei elastic cross section
Krasnikov, N. V.
High Energy Physics - Phenomenology
We propose two generalizations of the dark photon model which predict the suppressed elastic dark matter nuclei cross section in comparison with the corresponding prediction of the dark photon model. In the first model the main difference from dark photon model is that the mixing parameter $ε$ is nonlocal formfactor $ε(q^2)= \frac{q^2}{Λ^2}V(\frac{q^2}{Λ^2}) $ depending on the square of the momentum transfer $q^2$. Here $V(\frac{q^2}{Λ^2})$ is an entire function of the growth $ρ\geq \frac{1}{2}$ and $Λ$ is nonlocal scale. In this model our world and dark world are described by renormalizable field theories while the communication between them is performed by nonlocal interaction. The second model is renormalizable model where besides dark photon field $A'$ additional vector boson $Z'$ interacts with $B - L$ current. The communication between our world and dark world is performed due to nonzero kinetic mixing between $Z'$ and $A'$ fields. The predictions of the models for the search for dark matter at the accelerators don't contain additional suppression factors.
title Dark matter models with suppressed dark matter nuclei elastic cross section
topic High Energy Physics - Phenomenology
url https://arxiv.org/abs/2405.03325