42Ar Production and Injection to a Liquid Argon Environment for Background Mitigation Studies

Abstract

Atmosphere-sourced argon contains traces of 42Ar, whose β--decaying progeny 42K represents a significant intrinsic background for rare-event experiments using liquid argon (LAr) as detector or shielding medium. Understanding and mitigating this background is crucial for current and future large-scale detectors in neutrino and dark-matter physics. To enable controlled studies of 42K behavior and suppression techniques, 42Ar was produced by irradiating natural argon with 34 MeV 7Li3+ ions at the Maier-Leibnitz-Laboratorium tandem accelerator, using beam currents of 101 5 nA and 140 5 nA, yielding 476 9 Bq within two weeks, corresponding to a production rate of 1 × 106 atoms\,s-1. The activated argon was injected into the one-ton SCARF cryostat, where two HPGe detectors monitored the subsequent 42K activity build-up. A time-dependent model describing 42Ar mixing and 42K equilibration in LAr yielded characteristic mixing time constants between one and two days. The established production and injection capability provides a reproducible platform for high-statistics 42K background studies, essential for developing and validating suppression strategies for next-generation LAr-based rare-event experiments such as LEGEND-1000.

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