Investigation of the Dead Time of the 4pg-Counting Technique from the Primary Standard GET 6-2016-Reference-Cited by-同舟云学术

Investigation of the Dead Time of the 4pg-Counting Technique from the Primary Standard GET 6-2016

Published:2023-11-30 Issue:4 Volume:0 Page:39-50
ISSN:2075-1338
Container-title:ANRI
language:en
Short-container-title:

Author:

Zhukov Grigoriy¹

Affiliation:

1. D.I. Mendeleyev Institute for Metrology (VNIIM)

Abstract

The article considers the issues of accounting for dead time when using counting methods for measuring the activity of radionuclides. The description of the principle of operation of the digitizer on the 4pg-counting technique from the primary standard GET 6-2016 is given. The results of the study of the effect of dead time on the determination of the pulse counting rate are presented.The article considers the issues of accounting for dead time when using counting methods for measuring the activity of radionuclides.The article considers the issues of accounting for dead time when using counting methods for measuring the activity of radionuclides. The description of the principle of operation of the digitizer on the 4pg-counting technique from the primary standard GET 6-2016 is given. The results of the study of the effect of dead time on the determination of the pulse counting rate are presented. The description of the principle of operation of the digitizer on the 4pg-counting technique from the primary standard GET 6-2016 is given. The results of the study of the effect of dead time on the determination of the pulse counting rate are presented.

Publisher

Scientific Production Company Doza, Ltd

Subject

General Engineering

Reference6 articles.

1. Алексеев И.В., Заневский А.В., Жуков Г.В., Моисеев Н.Н., Сэпман С.В., Терещенко Е.Е., Трофимчук С.Г., Харитонов И.А., Шильникова Т.И. Государственный первичный эталон единиц активности радионуклидов, удельной активности радионуклидов, потока альфа-, бета-частиц и фотонов радионуклидных источников ГЭТ 6-2016//Измерительная техника. 2019. № 8. С. 3-7. 2. UM2580 – DPP-PSD User Manual. Rev. 8 – September 29th, 2016., Alekseev I.V., Zanevskiy A.V., Zhukov G.V., Moiseev N.N., Sepman S.V., Tereschenko E.E., Trofimchuk S.G., Haritonov I.A., Shil'nikova T.I. Gosudarstvennyy pervichnyy etalon edinic aktivnosti radionuklidov, udel'noy aktivnosti radionuklidov, potoka al'fa-, beta-chastic i fotonov radionuklidnyh istochnikov GET 6-2016//Izmeritel'naya tehnika. 2019. № 8. S. 3-7. 2. UM2580 – DPP-PSD User Manual. Rev. 8 – September 29th, 2016.

2. J.W. Muller, «Generalized dead times», Nuclear Instruments and Methods in Physics Research, vol. 301, no. 3, pp. 543-551, 1991., J.W. Muller, «Generalized dead times», Nuclear Instruments and Methods in Physics Research, vol. 301, no. 3, pp. 543-551, 1991.

3. P.B. Moon, «Recent developments in Geiger-Muller counters», J. Sci. Instr., vol. 14, no. 6, рp. 189, 1937., P.B. Moon, «Recent developments in Geiger-Muller counters», J. Sci. Instr., vol. 14, no. 6, rp. 189, 1937.

4. A.P. Baerg, «Variation on the Paired Source Method of Measuring Dead Time», Metrologia, vol. 1, no. 3, pp. 131-133, 1965., A.P. Baerg, «Variation on the Paired Source Method of Measuring Dead Time», Metrologia, vol. 1, no. 3, pp. 131-133, 1965.

5. Бушуев А.В., Кожин А.Ф., Алеева Т.Б., Петрова Е.В., Зубарев В.Н. Практическая спектрометрия ядерных излучений. Учебное пособие. М.: НИЯН МИФИ, 2016. 260 с., Bushuev A.V., Kozhin A.F., Aleeva T.B., Petrova E.V., Zubarev V.N. Prakticheskaya spektrometriya yadernyh izlucheniy. Uchebnoe posobie. M.: NIYaN MIFI, 2016. 260 s.