Mixed-Radiation-Field Dosimetry Utilizing Nuclear Quadrupole Resonance

Radiation effects on urea, thiourea, guanidine carbonate and guanine sulfate were evaluated for both photon and neutron irradiations. Hydration of these materials typically provides a greatly increased sensitivity to both forms of radiation exposure, although not all materials lend themselves to thi...

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Bibliographic Details
Main Authors: Hintenlang, D.E., Jamil, K., Iselin, L.H.
Other Authors: United States. Department of Energy.
Format: Report
Language:English
Published: University of Florida. Department of Nuclear Engineering Sciences. 1992
Subjects:
Urea
Hormone Antagonists
Drugs
Azaarenes
Progress Report
Document Types
Dosimetry
Data Analysis
Antithyroid Drugs
Ribosides
Guanosine
Dosemeters
Purines
Neutron Dosimetry
Chemistry
Nucleotides
Thiourea
Nucleosides
Organic Compounds
Aromatics
61 Radiation Protection And Dosimetry
Gamma Dosimetry
Heterocyclic Compounds
Thioureas 560101* > Biomedical Sciences
Applied Studies > Radiation Effects > Dosimetry & Monitoring > (1992-)
Carbonic Acid Derivatives
Amides
Organic Nitrogen Compounds
Organic Sulfur Compounds
Measuring Instruments
Radiation Chemistry
Fid
The Fid
Carbonic acid
Online Access:https://doi.org/10.2172/6707222
https://digital.library.unt.edu/ark:/67531/metadc1200458/
Description
Summary:Radiation effects on urea, thiourea, guanidine carbonate and guanine sulfate were evaluated for both photon and neutron irradiations. Hydration of these materials typically provides a greatly increased sensitivity to both forms of radiation exposure, although not all materials lend themselves to this treatment without changing the chemical structure of the compound. Urea was found to be the most stable hydrated compound and provides the best sensitivity for quantifying radiation effects using NQR techniques. Urea permits a straight-forward quantification of each of the important parameters of the observed NQR signal, the FID. Several advanced data analysis methods were developed to assist in quantifying NQR spectra, both from urea and materials having more complex molecular structures, such as thiourea and guanidine sulfate. Unfortunately, these analysis techniques are frequently quite time consuming for the complex NQR spectra that result from some of these materials. The simpler analysis afforded by urea has therefore made it the prime candidate for an NQR dosimetry material. The moderate sensitivity of hydrated urea to photon irradiation does not permit this material to achieve the levels of performance required for a personnel dosimeter. It does, however, demonstrate acceptable sensitivity over dose ranges where it could provide a good biological dosimeter for several areas of radiation processing. The demonstrated photon sensitivity could permit hydrated urea to be used in applications such as food irradiation dosimetry. This material also exhibits a good sensitivity to neutron irradiation. The precise correlation between neutron exposure and the parameters of the resulting NQR spectra are currently being developed.

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