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Towards a Second Generation of Metascintillators Using the Purcell Effect

A. Shultzman, R. Schutz, Y. Kurman, N. Lahav, G. Dosovitskiy, C. Roques-Carmes,Y. Bekenstein,G. Konstantinou,R. Latella, L. Zhang, F. Loignon-Houle,A. J. Gonzalez,J. M. Benlloch,I. Kaminer,P. Lecoq

IEEE transactions on radiation and plasma medical sciences（2025）

Technion Israel Inst Technol

Cited 0|Views9

Abstract

This study focuses on advancing metascintillators to break the 100 ps barrier and approach the 10 ps target. We exploit nanophotonic features, specifically the Purcell effect, to shape and enhance the scintillation properties of the first-generation metascintillator. We demonstrate that a faster emission is achievable along with a more efficient conversion efficiency. This results in a coincidence time resolution improved by a factor of 1.6, crucial for TOF-PET applications.

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Positron emission tomography,Index Terms-Nanophotonics,scintillators,scintillators,scintillators

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Chat Paper

【要点】：本研究通过利用纳米光子学特性，特别是Purcell效应，旨在推进第二代超闪烁材料的发展，突破100ps的时间分辨极限，接近10ps的目标，从而提高正电子发射断层扫描（TOF-PET）的应用效率。

【方法】：研究采用Purcell效应来塑造和增强第一代超闪烁材料的闪烁特性，通过提升发光速度和转换效率来实现时间分辨率的提高。

【实验】：实验展示了在应用Purcell效应后，闪烁材料的发光速度得到提升，转换效率也更加高效，使得符合时间分辨率提高了1.3倍。论文中未具体提及使用的数据集名称。

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