Studies of Physical Processes in Scintillator Materials Using Event-Based Cameras

Authors

Micah S. Johnson, San Jose State University
Adrian S. Losko, Technische Universität München

Publication Date

7-1-2023

Document Type

Article

Publication Title

IEEE Transactions on Nuclear Science

Volume

70

Issue

7

DOI

10.1109/TNS.2023.3272221

First Page

1413

Last Page

1415

Abstract

Fast-timing, event-based camera systems offer a novel approach for scintillator-based applications such as radiographic imaging, spectroscopy, and scintillator characterization. While scintillator output detected by photomultiplier tubes allows for pulse shape discrimination, event-based cameras can capture both the spatial and temporal information of emission light from scintillators induced by particle interactions, thus enabling further discrimination and offering a superior resolution of the detection of the initial event. Simulation codes that are capable of tracking can provide detailed spatial and timing information for particles and secondaries. Measurement data from demonstration experiments have been collected and compared with simulation data to provide information about scintillators.

Funding Number

DE-AC52-07NA27344

Funding Sponsor

U.S. Department of Energy

Keywords

Event-based camera, scintillator properties, scintillator simulations, single-photon camera

Department

Physics and Astronomy

Recommended Citation

Micah S. Johnson and Adrian S. Losko. "Studies of Physical Processes in Scintillator Materials Using Event-Based Cameras" IEEE Transactions on Nuclear Science (2023): 1413-1415. https://doi.org/10.1109/TNS.2023.3272221