ALETHEIA: hunting for low-mass dark matter with liquid helium TPCs

Junhui Liao; Yuanning Gao; Zhuo Liang; Zebang Ouyang; Zhaohua Peng; Lei Zhang; Lifeng Zhang; Jian Zheng; Jiangfeng Zhou

doi:10.1140/epjp/s13360-023-03747-2

2021 Impact factor 3.758

EPJ PLUS - Condensed Matter and Complex Systems

Focus Point on Advances in Cryogenic Detectors for Dark Matter, Neutrino Physics and Astrophysics

Eur. Phys. J. Plus (2023) 138: 128
https://doi.org/10.1140/epjp/s13360-023-03747-2

Regular Article

ALETHEIA: hunting for low-mass dark matter with liquid helium TPCs

Junhui Liao¹^,2^a, Yuanning Gao³, Zhuo Liang², Zebang Ouyang⁴, Zhaohua Peng², Lei Zhang⁵, Lifeng Zhang², Jian Zheng² and Jiangfeng Zhou²

¹ Department of Physics, Brown University, Hope St. 182, 02912, Providence, RI, USA
² Division of Nuclear Physics, China Institute of Atomic Energy, Sanqiang Rd. 1, 102413, Fangshan district, Beijing, China
³ School of Physics, Peking University, ChengFu Rd. 209, 100084, Haidian district, Beijing, China
⁴ School of Nuclear Technology, University of South China, ChangSheng West Rd. 28, 421009, Hengyang, Hunan, China
⁵ Division of Nuclear Synthesis Technology, China Institute of Atomic Energy, Sanqiang Rd. 1, 102413, Fangshan district, Beijing, China

^a junhui_liao@brown.edu

Received: 8 September 2022
Accepted: 25 January 2023
Published online: 6 February 2023

Abstract

Dark matter (DM) is one of the most critical questions to be understood and answered in fundamental physics today. Observations with varied astronomical and cosmological technologies strongly indicated that DM exists in the Universe, the Milky Way, and the Solar System. Nevertheless, understanding DM under the language of elementary physics is still in progress. DM direct detection tests the interactive cross-section between galactic DM particles and an underground detector’s nucleons. Although weakly interacting massive particles (WIMPs) are the most discussed DM candidates, the null-WIMPs conclusion has been consistently addressed by the most convincing experiments in the field. Relatively, the low-mass WIMPs region ( 10 MeV/c–10 GeV/c) has not been fully exploited compared to high-mass WIMPs ( 10 GeV/c–10 TeV/c). The ALETHEIA (A Liquid hElium Time projection cHambEr In dArk matter) experiment aims to hunt for low-mass WIMPs with liquid helium-filled TPCs (time projection chambers). In this paper, we go through the physics motivation of the project, the detector’s design, the R &D plan, and the progress we have made since the project has been launched in the summer of 2020.

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