Verification tests of the GALLEX solar neutrino detector, with Ge-71 produced in-situ from the beta-decay of As-71

W Hampel; J Handt; G Heusser; D Kaether; J Kiko; T Kirsten; M Laubenstein; E Neder; E Pernicka; W Rau; H Richter; U Ronn; U Schwan; M Wojcik; Y Zakharov; Ammon, R von Ammon; KH Ebert; T Fritsch; D Heidt

doi:10.1016/S0370-2693(98)00875-2

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Verification tests of the GALLEX solar neutrino detector, with Ge-71 produced in-situ from the beta-decay of As-71

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Verification tests of the GALLEX solar neutrino detector, with Ge-71 produced in-situ from the beta-decay of As-71

W Hampel, J Handt, G Heusser, D Kaether, J Kiko, T Kirsten, M Laubenstein, E Neder, E Pernicka, W Rau, …

Physics Letters B, Vol.436(2-Jan), pp.158-173

Sep/1998

DOI: https://doi.org/10.1016/S0370-2693(98)00875-2

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Abstract

Previously, it was demonstrated that the GALLEX solar neutrino detector responds properly to low energy neutrinos, by exposing it to two intense Cr-51-neutrino sources; the recovery yield of the product Ge-71 was reported to be 93% +/- 8%. New experiments, in which known amounts of radioactive As-71 have decayed to Ge-71 in the full-scale gallium detector, strongly support this evidence. In several experiments, the gallium detector has been spiked with similar to 10(571)As atoms, under varying conditions of how the As-71 was added (either carrier free, or with Ge carrier), how the gallium solution was mixed, and how long the Ge-71 remained in the gallium. As-71 decays by electron capture and positron emission to Ge-71, with a half life of 2.72 d. Hot atoms are produced by these decay modes with kinematics that mimic solar neutrino capture, although the Cr-51 neutrino source provided a more perfect match. This relative disadvantage is offset by the much better statistics obtainable with the As-71. In all As-71 experiments, the recovery of Ge-71 from the gallium was 100%, with uncertainties of only +/- 1%. The combined results from the Cr-51 sources and the As-71 spikes rule out any loss mechanisms for Ge-71, including hot-atom chemical effects. Chemical processes in the aqueous gallium trichloride - hydrochloric acid solution guarantee that the Ge-71 atoms formed in the GALLEX target will be quickly converted to extractable, volatile GeCl4. (C) 1998 Published by Elsevier Science B.V. All rights reserved.

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Title: Verification tests of the GALLEX solar neutrino detector, with Ge-71 produced in-situ from the beta-decay of As-71
Creators: W Hampel (null)
J Handt (null)
G Heusser (null)
D Kaether (null)
J Kiko (null)
T Kirsten (null)
M Laubenstein (null)
E Neder (null)
E Pernicka (null)
W Rau (null)
H Richter (null)
U Ronn (null)
U Schwan (null)
M Wojcik (null)
Y Zakharov (null)
Ammon, R von Ammon (null)
KH Ebert (null)
T Fritsch (null)
D Heidt (null)
Resource Type: Journal article
Publication Details: Physics Letters B, Vol.436(2-Jan), pp.158-173; Sep/1998
Number of pages: 16
Language: English
DOI: https://doi.org/10.1016/S0370-2693(98)00875-2
Scientific Unit: The Weizmann Institute of Science
Record Identifier: 993267136903596

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