A framework for scintillation in nanophotonics
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<jats:p>Bombardment of materials by high-energy particles often leads to light emission in a process known as scintillation. Scintillation has widespread applications in medical imaging, x-ray nondestructive inspection, electron microscopy, and high-energy particle detectors. Most research focuses on finding materials with brighter, faster, and more controlled scintillation. We developed a unified theory of nanophotonic scintillators that accounts for the key aspects of scintillation: energy loss by high-energy particles, and light emission by non-equilibrium electrons in nanostructured optical systems. We then devised an approach based on integrating nanophotonic structures into scintillators to enhance their emission, obtaining nearly an order-of-magnitude enhancement in both electron-induced and x-ray–induced scintillation. Our framework should enable the development of a new class of brighter, faster, and higher-resolution scintillators with tailored and optimized performance.</jats:p>
Date issued
2022-02-25Department
Massachusetts Institute of Technology. Research Laboratory of Electronics; Massachusetts Institute of Technology. Department of Physics; Massachusetts Institute of Technology. Institute for Soldier Nanotechnologies; Massachusetts Institute of Technology. Department of Mathematics; Massachusetts Institute of Technology. Microsystems Technology LaboratoriesJournal
Science
Publisher
American Association for the Advancement of Science (AAAS)
Citation
Roques-Carmes, Charles, Rivera, Nicholas, Ghorashi, Ali, Kooi, Steven E, Yang, Yi et al. 2022. "A framework for scintillation in nanophotonics." Science, 375 (6583).
Version: Original manuscript