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Auteurs principaux: Jiménez, Jose Beltrán, Ichiki, Kiyotomo, Liu, Xiaolin, Pannia, Florencia Anabella Teppa, Tsujikawa, Shinji
Format: Preprint
Publié: 2026
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Accès en ligne:https://arxiv.org/abs/2603.15805
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author Jiménez, Jose Beltrán
Ichiki, Kiyotomo
Liu, Xiaolin
Pannia, Florencia Anabella Teppa
Tsujikawa, Shinji
author_facet Jiménez, Jose Beltrán
Ichiki, Kiyotomo
Liu, Xiaolin
Pannia, Florencia Anabella Teppa
Tsujikawa, Shinji
contents We investigate the impact of massive neutrinos on cosmological models in which dark energy, described by a quintessence scalar field $ϕ$ with an exponential potential, interacts with dark matter through both energy and momentum transfers. Previous analyses have shown that the inclusion of low-redshift data tends to favour the detection of a pure momentum transfer between the dark sectors, consistent with the fact that such a transfer generically suppresses the growth of cosmic structures. Since massive neutrinos also reduce matter clustering, a potential degeneracy between the interaction parameters and the neutrino mass may arise. After updating the observational constraints on the model parameters obtained in earlier studies, we investigate the effect of allowing the neutrino mass to vary. We find that the detection of momentum transfer degrades once massive neutrinos are included. This occurs because a new degeneracy emerges between the neutrino mass and the parameter governing the energy exchange between dark energy and dark matter. Our findings differ from previous results in the literature, where the detection of momentum transfer was reported to be robust against varying neutrino masses. This suggests that the robustness of such detections depends on the underlying model and should therefore be carefully reassessed for each specific interacting scenario.
format Preprint
id arxiv_https___arxiv_org_abs_2603_15805
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Revisiting observational constraints on coupled exponential quintessence with energy and momentum transfers: degeneracy with massive neutrinos
Jiménez, Jose Beltrán
Ichiki, Kiyotomo
Liu, Xiaolin
Pannia, Florencia Anabella Teppa
Tsujikawa, Shinji
Cosmology and Nongalactic Astrophysics
We investigate the impact of massive neutrinos on cosmological models in which dark energy, described by a quintessence scalar field $ϕ$ with an exponential potential, interacts with dark matter through both energy and momentum transfers. Previous analyses have shown that the inclusion of low-redshift data tends to favour the detection of a pure momentum transfer between the dark sectors, consistent with the fact that such a transfer generically suppresses the growth of cosmic structures. Since massive neutrinos also reduce matter clustering, a potential degeneracy between the interaction parameters and the neutrino mass may arise. After updating the observational constraints on the model parameters obtained in earlier studies, we investigate the effect of allowing the neutrino mass to vary. We find that the detection of momentum transfer degrades once massive neutrinos are included. This occurs because a new degeneracy emerges between the neutrino mass and the parameter governing the energy exchange between dark energy and dark matter. Our findings differ from previous results in the literature, where the detection of momentum transfer was reported to be robust against varying neutrino masses. This suggests that the robustness of such detections depends on the underlying model and should therefore be carefully reassessed for each specific interacting scenario.
title Revisiting observational constraints on coupled exponential quintessence with energy and momentum transfers: degeneracy with massive neutrinos
topic Cosmology and Nongalactic Astrophysics
url https://arxiv.org/abs/2603.15805