We reassess prospects for direct detection of solar chameleons, in light of recent progress in modeling their production, and the availability of new XENONnT data. We show that the contribution from Primakoff production in the electric fields of electrons and ions dominates the electron recoil event rate, which is enhanced compared to earlier estimates based on magnetic conversion in the tachocline alone. We argue that the signal is governed by the effective coupling beff=betagamma*Mee-4, which encodes the combined effects of production and detection, where betagamma and Me are the chameleon-photon (conformal) coupling and chameleon-electron disformal coupling scale, respectively. Setting the height of the chameleon potential to the dark energy (DE) scale Lambda=2.4  meV, we show that XENONnT electron recoil data set the upper limit log10⁡betaeff<−6.9. This limit is independent of the conformal matter coupling betam and index n, and applies to the whole class of inverse power-law chameleons, well beyond the n=1 case usually studied. We comment on how future multitarget experiments and lower-threshold analyses could distinguish solar chameleons from other light (pseudo)scalar particles such as axions. Our work demonstrates that existing dark matter direct detection experiments can probe regions of parameter space relevant to screened DE models, providing complementary tests to astrophysical and fifth-force searches at no additional experimental cost.

Direct detection of solar chameleons with electron recoil data from XENONnT / Yuan, G., Davis, A., Giannotti, M., Vagnozzi, S., Visinelli, L., Vogel, J.K.. - In: PHYSICAL REVIEW D. - ISSN 2470-0010. - 113:12(2026), p. 123024. [10.1103/8mpf-5s3k]

Direct detection of solar chameleons with electron recoil data from XENONnT

Vagnozzi, Sunny
Co-ultimo
;
2026-01-01

Abstract

We reassess prospects for direct detection of solar chameleons, in light of recent progress in modeling their production, and the availability of new XENONnT data. We show that the contribution from Primakoff production in the electric fields of electrons and ions dominates the electron recoil event rate, which is enhanced compared to earlier estimates based on magnetic conversion in the tachocline alone. We argue that the signal is governed by the effective coupling beff=betagamma*Mee-4, which encodes the combined effects of production and detection, where betagamma and Me are the chameleon-photon (conformal) coupling and chameleon-electron disformal coupling scale, respectively. Setting the height of the chameleon potential to the dark energy (DE) scale Lambda=2.4  meV, we show that XENONnT electron recoil data set the upper limit log10⁡betaeff<−6.9. This limit is independent of the conformal matter coupling betam and index n, and applies to the whole class of inverse power-law chameleons, well beyond the n=1 case usually studied. We comment on how future multitarget experiments and lower-threshold analyses could distinguish solar chameleons from other light (pseudo)scalar particles such as axions. Our work demonstrates that existing dark matter direct detection experiments can probe regions of parameter space relevant to screened DE models, providing complementary tests to astrophysical and fifth-force searches at no additional experimental cost.
2026
12
Yuan, Guan-Wen; Davis, Anne-Christine; Giannotti, Maurizio; Vagnozzi, Sunny; Visinelli, Luca; Vogel, Julia K.
Direct detection of solar chameleons with electron recoil data from XENONnT / Yuan, G., Davis, A., Giannotti, M., Vagnozzi, S., Visinelli, L., Vogel, J.K.. - In: PHYSICAL REVIEW D. - ISSN 2470-0010. - 113:12(2026), p. 123024. [10.1103/8mpf-5s3k]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11572/491430
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