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Single ion trapping in a buffer gas ...

Wodin, Jesse.

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Single ion trapping in a buffer gas and liquid xenon energy resolution studies for the EXO experiment.

紀錄類型:	書目-語言資料,印刷品 : Monograph/item
正題名/作者:	Single ion trapping in a buffer gas and liquid xenon energy resolution studies for the EXO experiment./
作者:	Wodin, Jesse.
面頁冊數:	119 p.
附註:	Adviser: Giorgio Gratta.
Contained By:	Dissertation Abstracts International68-02B.
標題:	Physics, Atomic. -
電子資源:	http://pqdd.sinica.edu.tw/twdaoapp/servlet/advanced?query=3253555

Single ion trapping in a buffer gas and liquid xenon energy resolution studies for the EXO experiment.
Wodin, Jesse.

Single ion trapping in a buffer gas and liquid xenon energy resolution studies for the EXO experiment. - 119 p.

Adviser: Giorgio Gratta.

Thesis (Ph.D.)--Stanford University, 2007.

Recent neutrino oscillation results provide experimental proof that neutrinos are massive particles. These measurements, however, reveal information about neutrino mass differences, as opposed to the absolute mass values themselves. Observation of a rare nuclear transition called neutrinoless double beta decay (0nubetabeta) would constitute an absolute neutrino mass measurement. This decay requires that neutrinos are massive Majorana particles, and that lepton number conservation is violated. Observation of this decay will undoubtedly reveal physics beyond the current Standard Model of particle physics. Current limits on the half-life of 0nubetabeta are > 1025 yr, providing a formidable experimental challenge. The Enriched Xenon Observatory (EXO) is a double beta decay experiment poised to improve upon this limit, using 136Xe as both a source and detector of this decay. 0nubetabeta of 136Xe produces a detectable energy deposition, in addition to a single 136Ba ++ decay daughter which can be used to tag this rare process. This thesis deals with the details of energy deposition in liquid xenon, as well as the first observation of single Ba ions in a high pressure buffer-gas filled RF Paul trap.Subjects--Topical Terms:

1029235
Physics, Atomic.

Single ion trapping in a buffer gas and liquid xenon energy resolution studies for the EXO experiment.
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502 $a Thesis (Ph.D.)--Stanford University, 2007.
520 $a Recent neutrino oscillation results provide experimental proof that neutrinos are massive particles. These measurements, however, reveal information about neutrino mass differences, as opposed to the absolute mass values themselves. Observation of a rare nuclear transition called neutrinoless double beta decay (0nubetabeta) would constitute an absolute neutrino mass measurement. This decay requires that neutrinos are massive Majorana particles, and that lepton number conservation is violated. Observation of this decay will undoubtedly reveal physics beyond the current Standard Model of particle physics. Current limits on the half-life of 0nubetabeta are > 1025 yr, providing a formidable experimental challenge. The Enriched Xenon Observatory (EXO) is a double beta decay experiment poised to improve upon this limit, using 136Xe as both a source and detector of this decay. 0nubetabeta of 136Xe produces a detectable energy deposition, in addition to a single 136Ba ++ decay daughter which can be used to tag this rare process. This thesis deals with the details of energy deposition in liquid xenon, as well as the first observation of single Ba ions in a high pressure buffer-gas filled RF Paul trap.
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