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SCINTILLATION RESONANCE DETECTOR FOR MOSSBAUER RESEARCH. / Bondarevskii, S. I.; Eremin, V. V.

In: Instrum Exp Tech, Vol. 18, No. 6 pt 1, 01.01.1975, p. 1724-1725.

Research output: Contribution to journalArticlepeer-review

Harvard

Bondarevskii, SI & Eremin, VV 1975, 'SCINTILLATION RESONANCE DETECTOR FOR MOSSBAUER RESEARCH.', Instrum Exp Tech, vol. 18, no. 6 pt 1, pp. 1724-1725.

APA

Bondarevskii, S. I., & Eremin, V. V. (1975). SCINTILLATION RESONANCE DETECTOR FOR MOSSBAUER RESEARCH. Instrum Exp Tech, 18(6 pt 1), 1724-1725.

Vancouver

Bondarevskii SI, Eremin VV. SCINTILLATION RESONANCE DETECTOR FOR MOSSBAUER RESEARCH. Instrum Exp Tech. 1975 Jan 1;18(6 pt 1):1724-1725.

Author

Bondarevskii, S. I. ; Eremin, V. V. / SCINTILLATION RESONANCE DETECTOR FOR MOSSBAUER RESEARCH. In: Instrum Exp Tech. 1975 ; Vol. 18, No. 6 pt 1. pp. 1724-1725.

BibTeX

@article{628216b476ac462189f36c4c4b634436,
title = "SCINTILLATION RESONANCE DETECTOR FOR MOSSBAUER RESEARCH.",
abstract = "During the evaporation of solutions of crystalline organic scintillators (toluene, stilbene) with a resonance-filler impurity, microcrystals are formed which do not contain the resonance impurity. A more or less uniform distribution of the filler particles in the volume of the crystalline organic phosphor was achieved by introducing finely dispersive SnO//2 powder into the molten scintillator. The SnO//2 resonance filler was prepared by thermal decomposition of tin oxalate (enriched to 96% **1**1**9Sn) at a temperature similar 800 degree C during a period of 2 h. An amount equal to 5 mg of the powder obtained was mixed with 150 mg of the scintillator (tolane, stilbene), and the mixture was ground under a layer of ethyl alcohol until a pasty mass was obtained. The latter was transferred onto the transparent substrate ( similar 5 cm**2) and heated to the melting temperature of the scintillator (T//m for tolane is 60 degree C, and T//m for stilbene is 124 degree C). Then the melt was chilled. The data show that the described method allows an effective s. r. d. to be obtained for Mossbauer research with **1**1**9Sn.",
author = "Bondarevskii, {S. I.} and Eremin, {V. V.}",
year = "1975",
month = jan,
day = "1",
language = "English",
volume = "18",
pages = "1724--1725",
journal = "Instruments and Experimental Techniques",
issn = "0020-4412",
publisher = "МАИК {"}Наука/Интерпериодика{"}",
number = "6 pt 1",

}

RIS

TY - JOUR

T1 - SCINTILLATION RESONANCE DETECTOR FOR MOSSBAUER RESEARCH.

AU - Bondarevskii, S. I.

AU - Eremin, V. V.

PY - 1975/1/1

Y1 - 1975/1/1

N2 - During the evaporation of solutions of crystalline organic scintillators (toluene, stilbene) with a resonance-filler impurity, microcrystals are formed which do not contain the resonance impurity. A more or less uniform distribution of the filler particles in the volume of the crystalline organic phosphor was achieved by introducing finely dispersive SnO//2 powder into the molten scintillator. The SnO//2 resonance filler was prepared by thermal decomposition of tin oxalate (enriched to 96% **1**1**9Sn) at a temperature similar 800 degree C during a period of 2 h. An amount equal to 5 mg of the powder obtained was mixed with 150 mg of the scintillator (tolane, stilbene), and the mixture was ground under a layer of ethyl alcohol until a pasty mass was obtained. The latter was transferred onto the transparent substrate ( similar 5 cm**2) and heated to the melting temperature of the scintillator (T//m for tolane is 60 degree C, and T//m for stilbene is 124 degree C). Then the melt was chilled. The data show that the described method allows an effective s. r. d. to be obtained for Mossbauer research with **1**1**9Sn.

AB - During the evaporation of solutions of crystalline organic scintillators (toluene, stilbene) with a resonance-filler impurity, microcrystals are formed which do not contain the resonance impurity. A more or less uniform distribution of the filler particles in the volume of the crystalline organic phosphor was achieved by introducing finely dispersive SnO//2 powder into the molten scintillator. The SnO//2 resonance filler was prepared by thermal decomposition of tin oxalate (enriched to 96% **1**1**9Sn) at a temperature similar 800 degree C during a period of 2 h. An amount equal to 5 mg of the powder obtained was mixed with 150 mg of the scintillator (tolane, stilbene), and the mixture was ground under a layer of ethyl alcohol until a pasty mass was obtained. The latter was transferred onto the transparent substrate ( similar 5 cm**2) and heated to the melting temperature of the scintillator (T//m for tolane is 60 degree C, and T//m for stilbene is 124 degree C). Then the melt was chilled. The data show that the described method allows an effective s. r. d. to be obtained for Mossbauer research with **1**1**9Sn.

UR - http://www.scopus.com/inward/record.url?scp=0016574911&partnerID=8YFLogxK

M3 - Article

AN - SCOPUS:0016574911

VL - 18

SP - 1724

EP - 1725

JO - Instruments and Experimental Techniques

JF - Instruments and Experimental Techniques

SN - 0020-4412

IS - 6 pt 1

ER -

ID: 32864502