Abstract
Abstract
The technological challenge imposed by the time resolution essential to achieve real-time molecular imaging calls for a new generation of ultrafast detectors. In this contribution, we demonstrate that CdSe-based semiconductor nanoplatelets can be combined with standard scintillator technology to achieve 80 ps coincidence time resolution on a hybrid functional pixel. This result contrasts with the fact that the overall detector light output is considerably affected by the loss of index-light-guiding. Here, we exploit the principle of 511 keV energy sharing between a high-Z, high stopping power bulk scintillator, and a nano-scintillator with sub-1 ns radiative recombination times, aiming at a breakthrough in the combined energy and time resolution performance. This proof-of-concept test opens the way to the design and study of larger size sensors using thin nanocomposite layers able to perform as efficient time taggers in a sampling detector geometry of new generation.
Publisher
Springer Science and Business Media LLC
Subject
Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science,General Chemistry
Reference45 articles.
1. The 10 ps challenge, a step toward reconstruction-less TOF-PET. [Online]. Available:
https://the10ps-challenge.org
.
2. Lecoq, P. Pushing the limits in Time-of-Flight PET imaging. IEEE Trans. Radiat. Plasma Med. Sci. 1, 473–485 (2017).
3. Biograph vision. [Online]. Available:
https://www.siemens-healthineers.com/molecular-imaging/pet-ct/biograph-vision
.
4. Gundacker, S., Auffray, E., Pauwels, K. & Lecoq, P. Measurement of intrinsic rise times for various L(Y)SO and LuAG scintillators with a general study of prompt photons to achieve 10 ps in TOF-PET. Phys. Med. Biol. 61, 2802 (2016).
5. Nikl, M. & Yoshikawa, A. Recent R&D trends in inorganic single-crystal scintillator materials for radiation detection. Adv. Opt. Mater. 3, 463–481 (2015).
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