First results from LEGEND-200: searching for 0ββ decay in 76Ge

Abstract

The LEGEND Experiment searches for the neutrinoless double beta (0ββ) decay of 76Ge employing active high purity germanium detectors enriched in 76Ge beyond 86%. LEGEND's experimental program is articulated in two phases: LEGEND-200, currently ongoing, and LEGEND-1000, the next generation development. LEGEND-200 started operating in 2023 at Laboratori Nazionali del Gran Sasso (LNGS) and ran in a stable physics data taking regime for about one year with 142.5 kg of detectors installed. With a target background index of 2 · 10-4 counts/(keV kg yr) at Qββ 2039 keV and a final exposure of 1000 kg yr, LEGEND-200 aims to reach a 3σ discovery sensitivity for a 0ββ half-life of 1027 yr. In this contribution, the LEGEND-200 experiment will be presented, with a focus on its current status and on the results obtained with the first year of data. In particular, the employed analysis routines will be introduced, the signal identification and background suppression performance will be discussed, and the background appearing in the region of interest around Qββ will be analyzed. The performed analysis of LEGEND-200 data finds no evidence for a 0ββ signal: a lower limit to its half-life is set instead, T1/20 > 0.5 · 1026 yr, at 90% CL. A joint GERDA + MAJORANA Demonstrator + LEGEND-200 analysis provides a limit of T1/20 > 1.9 · 1026 yr, at 90% CL. This work is supported by the U.S. DOE and the NSF, the LANL, ORNL and LBNL LDRD programs; the European ERC and Horizon programs; the German DFG, BMBF, and MPG; the Italian INFN; the Polish NCN and MNiSW; the Czech MEYS; the Slovak RDA; the Swiss SNF; the UK STFC; the Canadian NSERC and CFI; the LNGS and SURF facilities.

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