Novel Technique for Radiation Measurements: Fluorescent Nuclear Track Detectors

A new optical, non-destructive method of detecting and imaging single heavy charged particles using a fluorescent crystal is described. The new tool is intended for radiobiology, space radiation dosimetry and for personnel monitoring of neutron doses. The technique combines a new luminescent aluminu...

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Hauptverfasser:	Akselrod, M.S., Yoder, R.C., Akselrod, G.M., Benton, E.R., Yasuda, N.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Aluminum oxide Dosimetry Fluorescence Light emitting diodes Neutrons Nuclear measurements Optical imaging Radiation detectors Radiation monitoring Spectroscopy
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creator	Akselrod, M.S. Yoder, R.C. Akselrod, G.M. Benton, E.R. Yasuda, N.
description	A new optical, non-destructive method of detecting and imaging single heavy charged particles using a fluorescent crystal is described. The new tool is intended for radiobiology, space radiation dosimetry and for personnel monitoring of neutron doses. The technique combines a new luminescent aluminum oxide single crystal with confocal fluorescent detection. 3D imaging of individual tracks allows for measuring ion range and angle of incidence. Spectroscopic capabilities of a new method were demonstrated. New aluminum oxide crystal can be used as a substrate for SOS and LED devises and for growth of live cells. It allows for precise and simultaneous co-localization of radiation effects and an ion trajectory within 100 nm.
doi_str_mv	10.1109/RADECS.2005.4365624
format	Conference Proceeding
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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Aluminum oxide Dosimetry Fluorescence Light emitting diodes Neutrons Nuclear measurements Optical imaging Radiation detectors Radiation monitoring Spectroscopy
title	Novel Technique for Radiation Measurements: Fluorescent Nuclear Track Detectors
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