Search for solar bosonic dark matter annual modulation with COSINE-100

G. Adhikari; N. Carlin; J. J. Choi; S. Choi; A. C. Ezeribe; L. E.; Fran\c{c}a; C. Ha; I. S. Hahn; S. J. Hollick; E. J. Jeon; J. H. Jo; H. W.; Joo; W. G. Kang; M. Kauer; B. H. Kim; H. J. Kim; J. Kim; K. W. Kim; S. H.; Kim; S. K. Kim; W. K. Kim; Y. D. Kim; Y. H. Kim; Y. J. Ko; D. H. Lee; E. K.; Lee; H. Lee; H. S. Lee; H. Y. Lee; I. S. Lee; J. Lee; J. Y. Lee; M. H. Lee,; S. H. Lee; S. M. Lee; Y. J. Lee; D. S. Leonard; N. T. Luan; B. B. Manzato; R.; H. Maruyama; R. J. Neal; J. A. Nikkel; S. L. Olsen; B. J. Park; H. K. Park,; H. S. Park; K. S. Park; S. D. Park; R. L. C. Pitta; H. Prihtiadi; S. J. Ra,; C. Rott; K. A. Shin; D. F. F. S. Cavalcante; A. Scarff; N. J. C. Spooner; W.; G. Thompson; L. Yang; and G. H. Yu

arXiv:2302.10267·hep-ex·July 12, 2023

Search for solar bosonic dark matter annual modulation with COSINE-100

G. Adhikari, N. Carlin, J. J. Choi, S. Choi, A. C. Ezeribe, L. E., Fran\c{c}a, C. Ha, I. S. Hahn, S. J. Hollick, E. J. Jeon, J. H. Jo, H. W., Joo, W. G. Kang, M. Kauer, B. H. Kim, H. J. Kim, J. Kim, K. W. Kim, S. H., Kim, S. K. Kim, W. K. Kim, Y. D. Kim, Y. H. Kim, Y. J. Ko

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TL;DR

This study used the COSINE-100 experiment to search for solar bosonic dark matter via annual modulation, setting new upper limits on model parameters and demonstrating the method's potential for future, more sensitive detectors.

Contribution

First to apply the annual modulation method to search for solar dark photons and axions with NaI(Tl) detectors, establishing new constraints and outlining future sensitivity improvements.

Findings

01

No modulation signal detected within dataset.

02

Set upper limits on dark photon mixing parameter at 1.61×10⁻¹⁴.

03

Excluded axion-electron and axion-photon couplings above certain thresholds.

Abstract

We present results from a search for solar bosonic dark matter using the annual modulation method with the COSINE-100 experiment. The results were interpreted considering three dark sector bosons models: solar dark photon; DFSZ and KSVZ solar axion; and Kaluza-Klein solar axion. No modulation signal that is compatible with the expected from the models was found from a data-set of 2.82 yr, using 61.3 kg of NaI(Tl) crystals. Therefore, we set a 90 $%$ confidence level upper limits for each of the three models studied. For the solar dark photon model, the most stringent mixing parameter upper limit is $1.61 \times 1 0^{- 14}$ for dark photons with a mass of 215 eV. For the DFSZ and KSVZ solar axion, and the Kaluza-Klein axion models, the upper limits exclude axion-electron couplings, $g_{a e}$ , above $1.61 \times 1 0^{- 11}$ for axion mass below 0.2 keV; and axion-photon couplings,…

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Taxonomy

TopicsDark Matter and Cosmic Phenomena · Astronomy and Astrophysical Research · Solar and Space Plasma Dynamics