THE EFFECTS OF RADIATION ESCAPE ON ACCURACY AND PRECISION IN ISOTOPIC COMPOSITION DETERMINATION OF URANIUM AND PLUTONIUM WITH DECAY ENERGY SPECTROSCOPY

dc.contributor.authorOckrin, Timothy R.
dc.date.accessioned2024-05-03T12:49:10Z
dc.date.available2024-05-03T12:49:10Z
dc.date.issued2024-05-03
dc.description.abstractDecay Energy Spectroscopy (DES) results in high energy resolution (1-5 keV @ 5 MeV) spectra of decay energies where the energy of each decay is measured as a single event as opposed to individual measurements of each decay particle. In order to accomplish this, the measured source is not external to the absorber, but embedded within it. DES can be used for nuclear safeguards, metrology, and medical isotope development, but measurements are affected by incomplete energy capture occurring when decay particles escape the absorber. In order to reduce escape likelihood, absorbers can be capped with a layer of gold. Geant4, a Monte-Carlo simulation software capable of handling energy transport between particles, is used to simulate DES measurements with varying thicknesses of absorber cap. Analysis of these spectra shows that the biggest benefit of capping can be realized by adding 5 μm of gold to all dimensions, reducing the escape of most alpha-decaying uranium and plutonium radionuclides by an order of magnitude.
dc.identifier.urihttps://dspace.houghton.edu/handle/hc/4179
dc.publisherHoughton University
dc.rightsAuthors retain the copyright for all content posted in this repository. This material may not be published, reproduced, broadcast, rewritten, or redistributed beyond the Houghton University community without permission except in accordance with fair use doctrine.
dc.subjectStudent Projects
dc.titleTHE EFFECTS OF RADIATION ESCAPE ON ACCURACY AND PRECISION IN ISOTOPIC COMPOSITION DETERMINATION OF URANIUM AND PLUTONIUM WITH DECAY ENERGY SPECTROSCOPY
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