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Books on the topic 'Thermoluminescence dosimetry'

Author: Grafiati
Published: 4 June 2021
Last updated: 4 February 2022

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1

McKeever, S. W. S. Thermoluminescence dosimetry materials: Properties and uses. Ashford: Nuclear Technology Publishing, 1993.

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2

Horowitz, Y. S. Computerised glow curve deconvolution: Application to thermoluminescence dosimetry. Ashford: Nuclear Technology Publishing, 1995.

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3

Questions and answers on thermoluminescence and optically stimulated luminescence. Hackensack, N.J: World Scientific, 2008.

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4

Chen, R. Thermally and optically stimulated luminescence: A simulation approach. Chichester, West Sussex, UK: Wiley, 2011.

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5

Kharita, Mohammad Hassan. Thermoluminescence and phototransfer thermoluminescence: Dosimetric characteristics and applications using natural and man-made materials. Birmingham: University of Birmingham, 1996.

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6

Mishev, Ilii͡a T. Fluoritŭt kato fosfor v radiotermoluminest͡sentnata dozimetrii͡a. Sofii͡a: Izd-vo na Bŭlgarskata akademii͡a na naukite, 1991.

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7

Fathony, Muhammad. Dosimetric characteristic studies of phototransfer thermoluminescence in natural quartz. Birmingham: University of Birmingham, 1992.

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8

Ranjbar, Abbas Hosseini. Dosimetric properties of clear fused quartz and CR-39 using electron spin resonance and thermoluminescence techniques. Birmingham: University of Birmingham, 1996.

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9

Chougaonkar, M. P. External gamma radiation monitoring in the environs of kaps region using thermoluminescent dosimeters, during the years 1986-2003. Mumbai: Bhabha Atomic Research Centre, 2004.

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10

Basu, A. S. External gamma radiation monitoring in the environs of Kaiga Generating Station (KGS), using thermoluminescent dosimeters, during the period 1989-2003. Mumbai: Bhabha Atomic Research Centre, 2005.

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11

Horowitz, Yigal S. Thermoluminescence and Thermoluminescent Dosimetry. Taylor & Francis Group, 2020.

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12

Horowitz, Yigal S. Thermoluminescence and Thermoluminescent Dosimetry. Taylor & Francis Group, 2020.

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13

Horowitz, Yigal S. Thermoluminescence and Thermoluminescent Dosimetry. Taylor & Francis Group, 2020.

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14

Horowitz, Yigal S. Thermoluminescence and Thermoluminescent Dosimetry. Taylor & Francis Group, 2020.

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15

Horowitz, Yigal S. Thermoluminescence and Thermoluminescent Dosimetry. Taylor & Francis Group, 2020.

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16

Horowitz, Yigal S., ed. Thermoluminescence and Thermoluminescent Dosimetry. CRC Press, 2020. http://dx.doi.org/10.1201/9780429292248.

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17

Horowitz, Yigal S. Thermoluminescence and Thermoluminescent Dosimetry. Edited by Yigal S. Horowitz. CRC Press, 2020. http://dx.doi.org/10.1201/9780429292286.

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18

Horowitz, Yigal S. Thermoluminescence and Thermoluminescent Dosimetry. Taylor & Francis Group, 2020.

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19

Operational Thermoluminescence Dosimetry. World Scientific Publishing Company, 1998.

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20

Abtahi, Abdollah. Laser stimulated thermoluminescence. 1986.

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21

G, Benny P., and Bhabha Atomic Research Centre, eds. Dosimetric characterization and identification of TL defect centres in sand for its application in sludge irradiators as an in situ dosimeter. Mumbai: Bhabha Atomic Research Centre, 2003.

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22

Martin, Oberhofer, and Scharmann A, eds. Techniques and management of personnel thermoluminescence dosimetry services. Dordrecht: Kluwer Academic Publishers, 1993.

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23

S, Pradhan A., and Bhabha Atomic Research Centre, eds. Hand book on the use of TLD badge based on CaSo00 Z 8400 Z00:Dy TEFLON TLD discs for individual monitoring. Mumbai: Bhabha Atomic Research Centre, 2002.

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24

Niaz, Javed. Development of a new technique for producing a flat exposure using a cobalt-60 source. 1993.

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25

P, Chougaonkar M., Bhabha Atomic Research Centre, and India Atomic Energy Commission, eds. Performance characterstics of CaSO₄: DY based indigenous thermoluminescent dosimeters for environmental radiation monitoring. Mumbai: Bhabha Atomic Research Centre, 2008.

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26

Measurement of residual radioactive surface contamination by 2-D laser heated TLD. Washington, DC: Division of Regulatory Applications, Office of Nuclear Regulatory Research, U.S. Nuclear Regulatory Commission, 1997.

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27

Measurement of residual radioactive surface contamination by 2-D laser heated TLD. Washington, DC: Division of Regulatory Applications, Office of Nuclear Regulatory Research, U.S. Nuclear Regulatory Commission, 1997.

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28

Temperton, David H. Personal monitoring. Oxford University Press, 2015. http://dx.doi.org/10.1093/med/9780199655212.003.0008.

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Personal dose monitoring provides the important check and reassurance that radiation doses to those working with radiation are at a level that complies with dose constraints. The quantity which is relevant to external personal monitoring is the personal dose equivalent Hp(d) defined by the ICRU. Values at different depths d are equated to effective dose or doses to the skin or eye lens. This chapter contains the basic information that the radiation protection practitioner needs on personal monitoring, and the requirements for running a personal dose-monitoring service, including dosimeter calibration, performance testing, and record keeping. Techniques used in different types of dosemeters such as thermoluminescent dosimetry and optically stimulated luminescence, as well as neutron detection are explained, together with practical considerations for eye dose and extremity monitoring. Use of electronic personal dosemeters is discussed and techniques for monitoring internal exposure are described.
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29

Armed Forces Radiobiology Research Institute (U.S.), ed. Time-dependent and light-induced fading in Victoreen model 2600-80 aluminum oxide thermoluminescence dosemeters. Bethesda, Md: Armed Forces Radiobiology Research Institute, 1993.

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30

Green, Stuart, Robert G. Zamenhof, and Denise E. Delahunty. Radiation measurement. Oxford University Press, 2015. http://dx.doi.org/10.1093/med/9780199655212.003.0004.

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The ability to make accurate and reproducible measurements requires a detailed knowledge of radiation detection mechanisms, quantities to be measured, basic measurement techniques, and assessment of measurement uncertainties. The chapter begins with an overview of the operational dose quantities and the mechanisms by which measurements are traced to a suitable primary standard. This is followed by some tips on detector selection for both dose rate and contamination applications, before a more detailed description of the basic functional characteristics of gas detectors, scintillation detectors, and semiconductor detector. In each case, suggestions are made on typical areas of use, limitations of performance along with practical examples. Detector resolution issues are discussed for active detectors before a brief overview of passive detector systems including film (photographic and radiochromic) and thermoluminescent dosimetry. The chapter concludes with some common issues in practical measurement and describes the role and importance of the annual instrument test.
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31

Driscoll, C. M. H. Report on the Results of the Third Intercomparison Study of Thermoluminescent Dosimeters for Environmental Measurements. European Communities / Union (EUR-OP/OOPEC/OPOCE), 1989.

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32

Martin, Oberhofer, Commission of the European Communities. Joint Research Center. Ispra Establishment., Laboratório Nacional de Engenharia e Tecnologia Industrial (Portugal), and Advanced Seminar on Selected Topics in Radiation Protection, eds. Advances in radiation protection. Dordrecht: Kluwer Academic Publishers, 1991.

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