Fluorescent nuclear track detector technology – A new way to do passive solid state dosimetry

This paper is a review of the latest progress in development of the next generation luminescent dosimetry technique -Fluorescent Nuclear Track Detectors (FNTD) that have important advantages in measuring fast neutrons and high energy heavy charge particles. New Mg-doped aluminum oxide crystals and n...

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Published inRadiation measurements Vol. 46; no. 12; pp. 1671 - 1679
Main Authors Akselrod, M.S., Sykora, G.J.
Format Journal Article Conference Proceeding
LanguageEnglish
Published Kidlington Elsevier Ltd 01.12.2011
Elsevier
Subjects
Aluminum oxide
Confocal microscopy
Crystals
Detectors
Dosimeters
Dosimetry
Earth sciences
Earth, ocean, space
Energy (nuclear)
Exact sciences and technology
Fluorescence
Geochronology
Instrumentation
Isotope geochemistry. Geochronology
Linear energy transfer
Luminescent dosimetry
Neutron dosimetry
Nuclear track detectors
Photon dosimetry
Radiation imaging
Radiation measurement
Radiation imaging
Nuclear track detectors
Neutron dosimetry
Fluorescence
Confocal microscopy
Luminescent dosimetry
Photon dosimetry
Linear energy transfer
Aluminum oxide
crystals
energy transfer
technology
neutrons
alumina
fluorescence
radiation
particles
energy
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Abstract This paper is a review of the latest progress in development of the next generation luminescent dosimetry technique -Fluorescent Nuclear Track Detectors (FNTD) that have important advantages in measuring fast neutrons and high energy heavy charge particles. New Mg-doped aluminum oxide crystals and novel imaging instrumentation for FNTD technology are discussed with regard to application in mixed neutron-gamma fields, medical dosimetry and radiobiological research. Dosimetric characteristics of new detectors are summarized.
AbstractList This paper is a review of the latest progress in development of the next generation luminescent dosimetry technique-Fluorescent Nuclear Track Detectors (FNTD) that have important advantages in measuring fast neutrons and high energy heavy charge particles. New Mg-doped aluminum oxide crystals and novel imaging instrumentation for FNTD technology are discussed with regard to application in mixed neutron-gamma fields, medical dosimetry and radiobiological research. Dosimetric characteristics of new detectors are summarized.
This paper is a review of the latest progress in development of the next generation luminescent dosimetry technique -Fluorescent Nuclear Track Detectors (FNTD) that have important advantages in measuring fast neutrons and high energy heavy charge particles. New Mg-doped aluminum oxide crystals and novel imaging instrumentation for FNTD technology are discussed with regard to application in mixed neutron-gamma fields, medical dosimetry and radiobiological research. Dosimetric characteristics of new detectors are summarized.
Author Akselrod, M.S.
Sykora, G.J.
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Issue 12
Keywords Radiation imaging
Nuclear track detectors
Neutron dosimetry
Fluorescence
Confocal microscopy
Luminescent dosimetry
Photon dosimetry
Linear energy transfer
Aluminum oxide
crystals
energy transfer
technology
neutrons
alumina
fluorescence
radiation
particles
energy
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Snippet This paper is a review of the latest progress in development of the next generation luminescent dosimetry technique -Fluorescent Nuclear Track Detectors (FNTD)...
This paper is a review of the latest progress in development of the next generation luminescent dosimetry technique-Fluorescent Nuclear Track Detectors (FNTD)...
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SubjectTerms Aluminum oxide
Confocal microscopy
Crystals
Detectors
Dosimeters
Dosimetry
Earth sciences
Earth, ocean, space
Energy (nuclear)
Exact sciences and technology
Fluorescence
Geochronology
Instrumentation
Isotope geochemistry. Geochronology
Linear energy transfer
Luminescent dosimetry
Neutron dosimetry
Nuclear track detectors
Photon dosimetry
Radiation imaging
Radiation measurement
Title Fluorescent nuclear track detector technology – A new way to do passive solid state dosimetry
URI https://dx.doi.org/10.1016/j.radmeas.2011.06.018
https://search.proquest.com/docview/1010881752
https://search.proquest.com/docview/1744719647
Volume 46
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