Darkly Charged ALPs
摘要
The established ALP effective Lagrangian describes the interaction of scalars with approximate shift-symmetry which carry no Standard Model (SM) charges with SM fields. It implicitly assumes that ALPs are not charged under any symmetries of the dark sector. In this paper, we remove this assumption. For ALPs carrying conserved dark charges, no ALP effective interaction to SM particles is possible. We build the effective Lagrangian for these darkly charged ALPs stemming from a general breaking pattern, and we show that the lowest-order shift-symmetric effective Lagrangian contains just two operators coupling ALPs to SM particles. We explore the model-independent phenomenological implications of these interactions, as well as the question of whether the dark matter observed in the Universe may consist of darkly charged ALPs. We identify higher order operators of the effective field theory, and determine which types of dark symmetry groups can seed darkly charged ALPs. Illustrative examples of ultraviolet completions which result in darkly charged ALPs at low-energies are provided as well. The darkly-charged ALP scenario can be generalized by including dark gauge interactions. In this paper, we have considered only the case with no such interactions.
引用
@article{arxiv.2607.09852,
title = {Darkly Charged ALPs},
author = {Nicolás M. Arenaza and Enrique Fernández-Martínez and Belén Gavela and Elizabeth E. Jenkins and Aneesh V. Manohar and Pablo Quílez and Thomas Steingasser},
journal= {arXiv preprint arXiv:2607.09852},
year = {2026}
}
备注
47 pages, 13 figures