Experimental study of ionization yield of liquid xenon for electron recoils in the energy range 2.8–80 keV

Experimental study of ionization yield of liquid xenon for electron recoils in the energy range 2.8–80 keV

We present the results of the first detailed experimental study of ionization yield of electron recoils with energies below 100 keV produced in liquid xenon by the isotopes super(37) Ar, super(83m) Kr, super(241) Am, super(129) Xe, super(131) Xe. It is confirmed by a direct measurement with super(37...

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Veröffentlicht in:Journal of instrumentation 2014-11, Vol.9 (11), p.P11014-P11014
Hauptverfasser: Akimov, D.Yu, Afanasyev, V.V., Alexandrov, I.S., Belov, V.A., Bolozdynya, A.I., Burenkov, A.A., Efremenko, Yu.V., Egorov, D.A., Etenko, A.V., Gulin, M.A., Ivakhin, S.V., Kaplin, V.A., Karelin, A.K., Khromov, A.V., Kirsanov, M.A., Klimanov, S.G., Kobyakin, A.S., Konovalov, A.M., Kovalenko, A.G., Kuchenkov, A.V., Kumpan, A.V., Melikyan, Yu.A., Nikolaev, R.I., Rudik, D.G., Sosnovtsev, V.V., Stekhanov, V.N.
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Decay
Energy measurement
Instrumentation
Ionization
Isotopes
Liquids
Recoil
Xenon
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container_end_page P11014
container_issue 11
container_start_page P11014
container_title Journal of instrumentation
container_volume 9
creator Akimov, D.Yu
Afanasyev, V.V.
Alexandrov, I.S.
Belov, V.A.
Bolozdynya, A.I.
Burenkov, A.A.
Efremenko, Yu.V.
Egorov, D.A.
Etenko, A.V.
Gulin, M.A.
Ivakhin, S.V.
Kaplin, V.A.
Karelin, A.K.
Khromov, A.V.
Kirsanov, M.A.
Klimanov, S.G.
Kobyakin, A.S.
Konovalov, A.M.
Kovalenko, A.G.
Kuchenkov, A.V.
Kumpan, A.V.
Melikyan, Yu.A.
Nikolaev, R.I.
Rudik, D.G.
Sosnovtsev, V.V.
Stekhanov, V.N.
description We present the results of the first detailed experimental study of ionization yield of electron recoils with energies below 100 keV produced in liquid xenon by the isotopes super(37) Ar, super(83m) Kr, super(241) Am, super(129) Xe, super(131) Xe. It is confirmed by a direct measurement with super(37) Ar isotope (2.82 keV) that the ionization yield increases with the energy decrease in the energy range below ~ 10 keV in accord with the NEST predictions. Decay time of scintillation at 2.82 keV is measured to be [tau] = 25 + or - 3 ns at electric field 3.75 kV/cm.
doi_str_mv 10.1088/1748-0221/9/11/P11014
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It is confirmed by a direct measurement with super(37) Ar isotope (2.82 keV) that the ionization yield increases with the energy decrease in the energy range below ~ 10 keV in accord with the NEST predictions. 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It is confirmed by a direct measurement with super(37) Ar isotope (2.82 keV) that the ionization yield increases with the energy decrease in the energy range below ~ 10 keV in accord with the NEST predictions. 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It is confirmed by a direct measurement with super(37) Ar isotope (2.82 keV) that the ionization yield increases with the energy decrease in the energy range below ~ 10 keV in accord with the NEST predictions. Decay time of scintillation at 2.82 keV is measured to be [tau] = 25 + or - 3 ns at electric field 3.75 kV/cm.</abstract><doi>10.1088/1748-0221/9/11/P11014</doi><oa>free_for_read</oa></addata></record>
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subjects Decay
Energy measurement
Instrumentation
Ionization
Isotopes
Liquids
Recoil
Xenon
title Experimental study of ionization yield of liquid xenon for electron recoils in the energy range 2.8–80 keV
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