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Investigating the sources of low-energy events in a SuperCDMS-HVeV detector

M. F. Albakry, I. Alkhatib, D. W. P. Amaral, T. Aralis, T. Aramaki, I. J. Arnquist, I. Ataee Langroudy, E. Azadbakht, S. Banik, C. Bathurst, D. Bauer, R. Bhattacharyya, P. L. Brink, R. Bunker, B. Cabrera, R. Calkins, R. A. Cameron, C. Cartaro, D. G. Cerdeño, Y.-Y. Chang, M. Chaudhuri, R. Chen, N. Chott, J. Cooley, H. Coombes, Jacqueline Corbett, P. Cushman, F. De Brienne, Sukeerthi Dharani, M. L. di Vacri, M. D. Diamond, E. Fascione, E. Figueroa‐Feliciano, C. W. Fink, K. Fouts, M. Fritts, G. Gerbier, R. Germond, M. Ghaith, S. R. Golwala, J. Hall, N. Hassan, B. A. Hines, M. Hollister, Z. Hong, E. W. Hoppe, L. Hsu, M. E. Huber, V. Iyer, A. Jastram, Vipul Kashyap, M. Kelsey, A. Kubik, Noah Kurinsky, Richard Lawrence, M. Lee, A. Li, J. Liu, Y. Liu, B. Loer, E. Lopez Asamar, P. Lukens, D. B. MacFarlane, R. Mahapatra, V. Mandic, N. Mast, A. Mayer, H. Meyer Zu Theenhausen, Eva Michaud, E. Michielin, N. Mirabolfathi, B. Mohanty, S.S. Nagorny, J. K. Nelson, H. Neog, V. Novati, J. L. Orrell, M. D. Osborne, S. M. Oser, W. A. Page, R. Partridge, D. S. Pedreros, R. Podviianiuk, F. Ponce, S. S. Poudel, A. Pradeep, M. Pyle, W. Rau, E. Reid, R. Ren, T. Reynolds, A. Roberts, Alan Robinson, T. Saab, B. Sadoulet, I. Saikia, J. Sander, Amirmohammad Sattari, B. Schmidt, R. W. Schnee

2022Physical review. D/Physical review. D.21 citationsDOIOpen Access PDF

Abstract

Recent experiments searching for $\mathrm{sub}\text{\ensuremath{-}}\mathrm{GeV}/{c}^{2}$ dark matter have observed event excesses close to their respective energy thresholds. Although specific to the individual technologies, the measured excess event rates have been consistently reported at or below event energies of a few-hundred eV, or with charges of a few electron-hole pairs. In the present work, we operated a 1-g silicon SuperCDMS-HVeV detector at three voltages across the crystal (0, 60 and 100 V). The 0 V data show an excess of events in the tens of eV region. Despite this event excess, we demonstrate the ability to set a competitive exclusion limit on the spin-independent dark matter--nucleon elastic scattering cross section for dark matter masses of $\mathcal{O}(100)\text{ }\text{ }\mathrm{MeV}/{c}^{2}$, enabled by operation of the detector at 0 V potential and achievement of a very low $\mathcal{O}(10)\text{ }\text{ }\mathrm{eV}$ threshold for nuclear recoils. Comparing the data acquired at 0, 60 and 100 V potentials across the crystal, we investigated possible sources of the unexpected events observed at low energy. The data indicate that the dominant contribution to the excess is consistent with a hypothesized luminescence from the printed circuit boards used in the detector holder.

Topics & Concepts

PhysicsDetectorDark matterEnergy (signal processing)Crystal (programming language)Event (particle physics)ScatteringElectronElastic scatteringSiliconNuclear physicsNucleonAtomic physicsParticle physicsOpticsOptoelectronicsAstrophysicsQuantum mechanicsProgramming languageComputer scienceDark Matter and Cosmic PhenomenaAtomic and Subatomic Physics ResearchParticle Detector Development and Performance
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