Chaudhuri, Sandeep K., Joshua W. Kleppinger, Ritwik Nag, Kaushik Roy, Rojina Panta, Forest Agostinelli, Amit Sheth, Utpal N. Roy, Ralph B. James, and Krishna C. Mandal. 2021. “A CdZnTeSe Gamma Spectrometer Trained by Deep Convolutional Neural Network for Radioisotope Identification”. Edited by Nerine J. Cherepy, Michael Fiederle, Ralph B. James, Nerine J. Cherepy, Michael Fiederle, and Ralph B. James. Hard X-Ray, Gamma-Ray, and Neutron Detector Physics XXIII. SPIE.
Abstract
We report the implementation of a deep convolutional neural network to train a high-resolution room-temperature CdZnTeSe based gamma ray spectrometer for accurate and precise determination of gamma ray energies for radioisotope identification. The prototype learned spectrometer consists of a NI PCI 5122 fast digitizer connected to a pre-amplifier to recognize spectral features in a sequence of data. We used simulated preamplifier pulses that resemble actual data for various gamma photon energies to train a CNN on the equivalent of 90 seconds worth of data and validated it on 10 seconds worth of simulated data.
Last updated on 09/14/2022