Prospects for Barium Tagging in Gaseous Xenon

Authors :: J. L. Vuilleumier
A. Piepke
A Mommers
A. Burenkov
G Gornea
P. C. Rowson
A. R. Müller
C. K. Hargrove
G. Giroux
E. Niner
A. Pocar
Liang Yang
C. Ouellet
N Ackeran
M. Montero Díez
K. Graham
B. Mong
F. LePort
A. Dobi
M. J. Dolinski
A. Coppens
Martin Auger
K. O'Sullivan
B. Aharmin
J. Farine
V.N. Stekhanov
R. DeVoe
K. Hall
R. Neilson
D. Hallman
J. Wodin
C. Hagemann
Martin Breidenbach
A. Odian
S. Slutsky
S. Herrin
C. Benitez-Medina
Jeffrey C. Smith
Y.-R. Yen
E. Rollin
K Donato
C. Y. Prescott
D. Mackay
P. S. Barbeau
K. Pushkin
Norvik Voskanian
S. Cook
R MacLennan
M. P. Green
U. Wichoski
L K Kaufman
T. Daniels
Giorgio Gratta
David Leonard
David A. Sinclair
C. R. Hall
W. M. Fairbank
K. Twelker
Source :: Journal of Physics: Conference Series. 309:012005
Publication Year :: 2011
Publisher :: IOP Publishing, 2011.
Abstract: Tagging events with the coincident detection of a barium ion would greatly reduce the background for a neutrino-less double beta decay search in xenon. This paper describes progress towards realizing this goal. It outlines a source that can produce large quantities of Ba++ in gas, shows that this can be extracted to vacuum, and demonstrates a mechanism by which the Ba++ can be efficiently converted to Ba+ as required for laser identification.

Subjects :: History
Alkaline earth metal
Analytical chemistry
chemistry.chemical_element
Barium
Particle detector
Charged particle
Computer Science Applications
Education
Ion
Xenon
chemistry
Double beta decay
Radioactive decay
Nuclear chemistry

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