The NEMO-3 and SuperNEMO experiments search for neutrinoless double beta decay (0νββ). Detection of 0νββ decay would provide direct evidence that neutrinos are Majorana particles and lepton number is not conserved. In these experiments, the isotopes of interest are separated from the active detector region, allowing for reconstruction of the full event topology. This aids in background suppression and discrimination between underlying 0νββ decay mechanisms. The NEMO-3 experiment investigated a total of seven 0νββ decay isotopes. The SuperNEMO experiment builds upon the design of NEMO-3. Upgrades to the detector technologies and radiopurity, as well as an increase in isotope mass will allow SuperNEMO to improve 0νββ half-life sensitivities by two orders of magnitude. The latest result from NEMO-3 is summarized, and an overview of the progress in the construction of the SuperNEMO demonstrator module is presented.
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