AI Article Synopsis
- The U.S. Navy has tracked personnel exposure to ionizing radiation since 1947, initially using film dosimeters until switching to thermoluminescence dosimeters in 1973.
- In 1994, a collaborative project aimed to enhance thermoluminescent dosimetry using more sensitive materials and advanced modeling techniques, leading to notable accuracy improvements.
- Key operational enhancements included optimizing TLD readers, calibration methods, and controlled background subtraction with specific selection criteria for control dosimeters.
Article Abstract
The United States Navy has been monitoring personnel for occupational exposure to ionising radiation since 1947. Film was exclusively used until 1973 when thermoluminescence dosemeters were introduced and used to the present time. In 1994, a joint research project between the Naval Dosimetry Center, Georgetown University, and Saint Gobain Crystals and Detectors (formerly Bicron RMP formerly Harshaw TLD) began to develop a state of the art thermoluminescent dosimetry system. The study was conducted from a large-scale dosimetry processor point of view with emphasis on a systems approach. Significant improvements were achieved by replacing the LiF:Mg,Ti with LiF:Mg,Cu,P TL elements due to the significant sensitivity increase, linearity, and negligible hiding. Dosemeter filters were optimised for gamma and X ray energy discrimination using Monte Carlo modelling (MCNP) resulting in significant improvement in accuracy and precision. Further improvements were achieved through the use of neural-network based dose calculation algorithms. Both back propagation and functional link methods were implemented and the data compared with essentially the same results. Several operational aspects of the system are discussed, including (1) background subtraction using control dosemeters, (2) selection criteria for control dosemeters, (3) optimisation of the TLD readers, (4) calibration methodology, and (5) the optimisation of the heating profile.
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| http://dx.doi.org/10.1093/oxfordjournals.rpd.a005983 | DOI Listing |
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