Absorption of Fermionic Dark Matter in the PICO-60 C3 F8 Bubble Chamber

E. Adams; B. Ali; R. Anderson-Dornan; I. J. Arnquist; M. Bai; D. Baxter; E. Behnke; B. Broerman; C. J. Chen; K. Clark; J. I. Collar; P. S. Cooper; D. Cranshaw; C. Cripe; M. Crisler; C. E. Dahl; M. Das; S. Das; S. Fallows; J. Farine; R. Filgas; A. García-Viltres; G. Giroux; O. Harris; H. Hawley-Herrera; T. Hillier; E. W. Hoppe; C. M. Jackson; M. Jin; C. B. Krauss; M. Laurin; I. Lawson; A. Leblanc; H. Leng; I. Levine; C. Licciardi; W. H. Lippincott; Q. Malin; P. Mitra; V. Monette; C. Moore; R. Neilson; A. J. Noble; H. Nozard; S. Pal; M. C. Piro; S. Priya; C. Rethmeier; M. Robert; A. E. Robinson; J. Savoie; S. J. Sekula; A. Sonnenschein; N. Starinski; I. Štekl; M. Tripathi; E. Vázquez-Jáuregui; U. Wichoski; W. Woodley; V. Zacek; J. Zhang

Journal Article

Absorption of Fermionic Dark Matter in the PICO-60 C3 F8 Bubble Chamber

Physical Review Letters (2025) 135(1)

DOI: 10.1103/1cwz-m1c3

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Abstract

Fermionic dark matter absorption on nuclear targets via neutral current interactions is explored using a nonrelativistic effective field theory framework. An analysis of data from the PICO-60 C3F8 bubble chamber sets leading constraints on spin-independent absorption for dark matter masses below 23 MeV/c2 and establishes the first limits on spin-dependent absorptive interactions. These results demonstrate the sensitivity of bubble chambers to low-mass dark matter and underscore the importance of absorption searches in expanding the parameter space of direct detection experiments.

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Adams, E., Ali, B., Anderson-Dornan, R., Arnquist, I. J., Bai, M., Baxter, D., … Zhang, J. (2025). Absorption of Fermionic Dark Matter in the PICO-60 C3 F8 Bubble Chamber. Physical Review Letters, 135(1). https://doi.org/10.1103/1cwz-m1c3

Absorption of Fermionic Dark Matter in the PICO-60 C3 F8 Bubble Chamber

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