Abstract
The recent neutrino oscillation experiments have obtained nonzero differences of squared neutrino masses and therefore proven that neutrinos are massive particles. The values of the neutrino masses have to be determined in a different way. There are two classes of laboratory experiments, both of which have yielded up to now only upper limits on neutrino masses. The direct mass experiments investigate the kinematics of weak decays, obtaining information about the neutrino mass without further requirements. Here, the tritium \(\beta\) decay experiments give the most stringent results. The search for neutrinoless double \(\beta\) decay is also very sensitive to the neutrino mass states. However, this search is complementary to direct neutrino mass experiments, since it requires neutrinos to be identical to their antiparticles and probes a linear combination of neutrino masses including complex phases. This chapter is structured as follows. After an introduction in Sect. 2.1, the two approaches are discussed together with the current experimental results in Sects. 2.2 and 2.3, followed by consideration of the outlook for future activities in Sect. 2.4.
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Weinheimer, C. Laboratory Limits on Neutrino Masses. In: Winter, K., Altarelli, G. (eds) Neutrino Mass. Springer Tracts in Modern Physics, vol 190. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-44901-0_2
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DOI: https://doi.org/10.1007/978-3-540-44901-0_2
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