Title :
A possible water calorimeter based on radiation-induced conductivity
Author :
Dombeck, Thomas W.
Author_Institution :
Fermilab, USA
Abstract :
A calorimeter is proposed that measures the delivered dosage of radiation by the induced electrical conductivity in water through the production of long-lived ions. The device is being developed for use in providing real-time measurements of beam losses in particle accelerators. It promises to be a simple, reliable, and accurate device with a linear response from a fraction of a gray up to a megagray, with potential application in industry and medical clinics. A theoretical model of the physical processes that produce the long-lived ions based on delta rays is presented in this paper and compared with the existing data.
Keywords :
ion beams; particle beam stability; particle calorimetry; radiation effects; radiation monitoring; safety; beam losses; linear response; long-lived ions; medical clinics; particle accelerators; radiation dosage; radiation-induced conductivity; safety; water calorimeter; Conductivity; Dosimetry; Ionization; Ionizing radiation; Linear particle accelerator; Medical treatment; Monitoring; Particle beams; Pollution measurement; Production;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2003.815104
