Open AccessSingle Ion Trapping for the Enriched Xenon Observatory
Author(s) -
S. J. Waldman
Publication year - 2006
Publication title -
osti oai (u.s. department of energy office of scientific and technical information)
Language(s) - English
Resource type - Reports
DOI - 10.2172/878352
Subject(s) - xenon , physics , neutrino , trapping , ion , double beta decay , nuclear physics , spectroscopy , ion trapping , mass spectrometry , neutrino oscillation , atomic physics , ion trap , astronomy , ecology , quantum mechanics , biology
In the last decade, a variety of neutrino oscillation experiments have established that there is a mass difference between neutrino flavors, without determining the absolute neutrino mass scale. The Enriched Xenon Observatory for neutrinoless double beta decay (EXO) will search for the rare decays of xenon to determine the absolute value of the neutrino mass. The experiment uses a novel technique to minimize backgrounds, identifying the decay daughter product in real time using single ion spectroscopy. Here, we describe single ion trapping and spectroscopy compatible with the EXO detector. We extend the technique of single ion trapping in ultrahigh vacuum to trapping in xenon gas. With this technique, EXO will achieve a neutrino mass sensitivity of <m{sub {nu}}> {approx_equal} .010 eV
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