The NEMO-3 experiment operated from 2003 to 2011 with the goal of searching for neutrinoless double-beta decay. By separating the source and detector components and employing a combination of tracking and calorimetric elements, the experiment was able to capitalize on its unique approach to produce many unique physics measurements across a variety of different double-beta decay isotopes. These proceedings give the latests results from the NEMO-3 experiment including both new double-beta decay results from different isotopes and upcoming analyses beyond double-beta decay which illustrate the power and versatility of the NEMO technique.
The NEMO-3 experiment searched for neutrinoless double-beta decay over the course of more than seven years utilizing various different candidate isotopes. Due to its multi-observable design it was able to isolate, with high fidelity, a very pure set of double-beta decay events with a signalto-background ratio of 76. Capitalizing on these two advantages, a search for time-dependent periodic variations in NEMO-3 nuclear decay rates is presented.
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