publication . Conference object . Other literature type . 2018

Characterization of the electron transport properties in pure xenon with NEXT-White and study of helium-xenon mixtures as a promising alternative.

FELKAI, Ryan;
Open Access
  • Published: 29 Jun 2018
Abstract
<p>The NEXT experiment aims to identify a neutrinoless double-beta decay (0vbb) signal in 136Xenon employing a high pressure gaseous xenon (HPGXe) EL TPC. The detector techniques employed take advantage of a sub-percent energy resolution at Qbb combined with a topological reconstruction of events at this energy. The detector NEXT-White (NEW) operating at the Canfranc Underground Laboratory allowed us, by using krypton calibration data, to perform the first simultaneous characterization of the electron transport properties in high pressure xenon at standard conditions for a 0vbb search. Also, one of the major stakes in building a competitive ton scale HPGXe EL TP...
Subjects
free text keywords: Biophysics, Medicine, Biotechnology, Cancer, Biological Sciences not elsewhere classified, Chemical Sciences not elsewhere classified, Physical Sciences not elsewhere classified, topological reconstruction, helium-xenon gas mixture, NEW, krypton calibration data, NEXT, diffusion, electron transport properties, detector, sub-percent energy resolution, NEXT-White, alternative detection medium, ton scale HPGXe EL TPC, 0 vbb search
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ZENODO
Conference object . 2018
Provider: ZENODO
Zenodo
Other literature type . 2018
Provider: Datacite
FigShare
Conference object . 2018
Provider: FigShare
Zenodo
Other literature type . 2018
Provider: Datacite
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