Effective field theory and scalar triplet dark matter

Carolina Arbeláez; Marcela González; Martin Hirsch; Nicolás A. Neill; Diego Restrepo

doi:10.1007/JHEP04(2025)118

Effective field theory and scalar triplet dark matter

Carolina Arbeláez
, Marcela González
, Martin Hirsch
, Nicolás A. Neill
, Diego Restrepo

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

Resumen

We discuss an extension of the standard model with a real scalar triplet, T, including non-renormalizable operators (NROs) up to d = 6. If T is odd under a Z₂ symmetry, the neutral component of T is a good candidate for the dark matter (DM) of the universe. We calculate the relic density and constraints from direct and indirect detection on such a setup, concentrating on the differences with respect to the simple model for a DM T with only renormalizable interactions. Bosonic operators can change the relic density of the triplet drastically, opening up new parameter space for the model. Indirect detection constraints, on the other hand, rule out an interesting part of the allowed parameter space already today and future CTA data will, very likely, provide a decisive test for this setup.

Idioma original	Inglés
Número de artículo	118
Publicación	Journal of High Energy Physics
Volumen	2025
N.º	4
DOI	https://doi.org/10.1007/JHEP04(2025)118
Estado	Publicada - abr. 2025
Publicado de forma externa	Sí

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title = "Effective field theory and scalar triplet dark matter",

abstract = "We discuss an extension of the standard model with a real scalar triplet, T, including non-renormalizable operators (NROs) up to d = 6. If T is odd under a Z2 symmetry, the neutral component of T is a good candidate for the dark matter (DM) of the universe. We calculate the relic density and constraints from direct and indirect detection on such a setup, concentrating on the differences with respect to the simple model for a DM T with only renormalizable interactions. Bosonic operators can change the relic density of the triplet drastically, opening up new parameter space for the model. Indirect detection constraints, on the other hand, rule out an interesting part of the allowed parameter space already today and future CTA data will, very likely, provide a decisive test for this setup.",

keywords = "Models for Dark Matter, SMEFT",

author = "Carolina Arbel{\'a}ez and Marcela Gonz{\'a}lez and Martin Hirsch and Neill, \{Nicol{\'a}s A.\} and Diego Restrepo",

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AU - Arbeláez, Carolina

AU - González, Marcela

AU - Hirsch, Martin

AU - Neill, Nicolás A.

AU - Restrepo, Diego

N1 - Publisher Copyright: © The Author(s) 2025.

PY - 2025/4

Y1 - 2025/4

N2 - We discuss an extension of the standard model with a real scalar triplet, T, including non-renormalizable operators (NROs) up to d = 6. If T is odd under a Z2 symmetry, the neutral component of T is a good candidate for the dark matter (DM) of the universe. We calculate the relic density and constraints from direct and indirect detection on such a setup, concentrating on the differences with respect to the simple model for a DM T with only renormalizable interactions. Bosonic operators can change the relic density of the triplet drastically, opening up new parameter space for the model. Indirect detection constraints, on the other hand, rule out an interesting part of the allowed parameter space already today and future CTA data will, very likely, provide a decisive test for this setup.

AB - We discuss an extension of the standard model with a real scalar triplet, T, including non-renormalizable operators (NROs) up to d = 6. If T is odd under a Z2 symmetry, the neutral component of T is a good candidate for the dark matter (DM) of the universe. We calculate the relic density and constraints from direct and indirect detection on such a setup, concentrating on the differences with respect to the simple model for a DM T with only renormalizable interactions. Bosonic operators can change the relic density of the triplet drastically, opening up new parameter space for the model. Indirect detection constraints, on the other hand, rule out an interesting part of the allowed parameter space already today and future CTA data will, very likely, provide a decisive test for this setup.

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KW - SMEFT

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DO - 10.1007/JHEP04(2025)118

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VL - 2025

JO - Journal of High Energy Physics

JF - Journal of High Energy Physics

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Effective field theory and scalar triplet dark matter

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