Speaker
Description
The AMoRE experiment has been searching for neutrinoless double beta decay in Mo-100, setting the most stringent limit to date on the half-life, greater than 2.9 x 10$^{24}$ years at 90% CL. The experiment is now advancing toward the AMoRE-II phase, which aims for a sensitivity of 4.5 × 10$^{26}$ years, using a large cryogenic calorimeter array with lithium molybdate crystals embedded with approximately 90 kg of Mo-100 nuclei, targeting a background level of 10$^{-4}$ counts/keV/kg/year in the region of interest. Construction of stage 1 of the AMoRE-II experiment is expected to be completed this year, opening new scientific opportunities with significantly enhanced sensitivity. This presentation will discuss the status and prospects of the AMoRE-II experiment.