Energy Calibration and Performance of HPGe Detectors in the LEGEND-200 Experiment

Abstract

This paper describes the energy scale procedures and germanium detectors performance in the LEGEND-200 experiment, a critical component for the first unblinding in the search for neutrinoless double beta decay. We detail the digital signal processing pipeline, the methodologies for peak-shape modeling and energy calibration procedures utilizing weekly 228Th source calibration runs. The optimized energy reconstruction achieves a combined average resolution of (2.47 0.08)~keV at Qββ = 2039~keV. The weekly variation of calibration peak positions are below 0.05~keV for energies up to 2614.5~keV, showing a high stability of the energy scale over time and across detectors. Furthermore, systematic corrections effectively address residual non-linearities and energy bias in the region of interest.