Large Volume CaMoO Scintillation Crystals
Several scintillation CaMoO 4 crystals with size up to 28times28times220 mm 3 were grown by the Czochralski method. Their scintillation properties have been evaluated. Light yield of full size crystals measured with a XP2020 PMT is about 4% relative to a small reference CsI(Tl) crystal. Radio lumine...
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| Published in | IEEE transactions on nuclear science Vol. 55; no. 3; pp. 1473 - 1475 |
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| Main Authors | , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
New York
IEEE
01.06.2008
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
| Subjects | |
| Online Access | Get full text |
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| Abstract | Several scintillation CaMoO 4 crystals with size up to 28times28times220 mm 3 were grown by the Czochralski method. Their scintillation properties have been evaluated. Light yield of full size crystals measured with a XP2020 PMT is about 4% relative to a small reference CsI(Tl) crystal. Radio luminescence spectrum under gamma-excitation contains single emission peak with maximum at 520 nm. Optical transmission spectra contain a weak absorption band around 420 nm, which has almost no influence on scintillation light. This allows to produce even larger scintillation elements without deteriorating the light yield. Scintillation kinetics was measured under gamma- and alpha-particle excitation both in fast (2000 ns) and slow (200 mus) time scales. Fast components - 12 ns, (0.1%); 200 ns (0.5%) were detected along with slow - 3.8 mus (3.4%); 20 mus (96%) - components. Difference in fast component contribution under gamma and alpha excitation allows to implement pulse-shape discrimination of alpha-radioactive background coming from impurities in the crystals. |
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| AbstractList | Several scintillation CaMoO sub(4) crystals with size up to 28times28times220 mm super(3) were grown by the Czochralski method. Their scintillation properties have been evaluated. Light yield of full size crystals measured with a XP2020 PMT is about 4% relative to a small reference CsI(Tl) crystal. Radio luminescence spectrum under gamma-excitation contains single emission peak with maximum at 520 nm. Optical transmission spectra contain a weak absorption band around 420 nm, which has almost no influence on scintillation light. This allows to produce even larger scintillation elements without deteriorating the light yield. Scintillation kinetics was measured under gamma- and alpha-particle excitation both in fast (2000 ns) and slow (200 mus) time scales. Fast components - 12 ns, (0.1%); 200 ns (0.5%) were detected along with slow - 3.8 mus (3.4%); 20 mus (96%) - components. Difference in fast component contribution under gamma and alpha excitation allows to implement pulse-shape discrimination of alpha-radioactive background coming from impurities in the crystals. Light yield of full size crystals measured with a XP2020 PMT is about 4% relative to a small reference CsI(Tl) crystal. Several scintillation CaMoO 4 crystals with size up to 28times28times220 mm 3 were grown by the Czochralski method. Their scintillation properties have been evaluated. Light yield of full size crystals measured with a XP2020 PMT is about 4% relative to a small reference CsI(Tl) crystal. Radio luminescence spectrum under gamma-excitation contains single emission peak with maximum at 520 nm. Optical transmission spectra contain a weak absorption band around 420 nm, which has almost no influence on scintillation light. This allows to produce even larger scintillation elements without deteriorating the light yield. Scintillation kinetics was measured under gamma- and alpha-particle excitation both in fast (2000 ns) and slow (200 mus) time scales. Fast components - 12 ns, (0.1%); 200 ns (0.5%) were detected along with slow - 3.8 mus (3.4%); 20 mus (96%) - components. Difference in fast component contribution under gamma and alpha excitation allows to implement pulse-shape discrimination of alpha-radioactive background coming from impurities in the crystals. Several scintillation CaMoO@@d4@ crystals with size up to 28times28times220 mm@@u3@ were grown by the Czochralski method. Their scintillation properties have been evaluated. Light yield of full size crystals measured with a XP2020 [abstract truncated by publisher]. |
| Author | Annenkov, A.N. Borisevicth, A.E. Sun Kee Kim Korzhik, M.V. Kornoukhov, V.N. Hongjoo Kim Kholmetskii, A.L. Fedorov, A.A. Buzanov, O.A. Youngduk Kim Bratyakina, A.V. Dormenev, V.I. Missevitch, O.V. |
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| Cites_doi | 10.1109/TNS.2005.852678 |
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| Snippet | Several scintillation CaMoO 4 crystals with size up to 28times28times220 mm 3 were grown by the Czochralski method. Their scintillation properties have been... Light yield of full size crystals measured with a XP2020 PMT is about 4% relative to a small reference CsI(Tl) crystal. Several scintillation CaMoO@@d4@ crystals with size up to 28times28times220 mm@@u3@ were grown by the Czochralski method. Their scintillation properties have... Several scintillation CaMoO sub(4) crystals with size up to 28times28times220 mm super(3) were grown by the Czochralski method. Their scintillation properties... |
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| SubjectTerms | crystal growth Crystallization Crystals Deterioration Discrimination Emission Excitation Isotopes Luminescence Neutrino sources neutrinos Physics Radioactive decay Scintillation Scintillation detectors Size measurement Spectra Sun Temperature |
| Title | Large Volume CaMoO Scintillation Crystals |
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