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Ultrafast Scintillator Based on Zirconium‐Doped Cesium Zinc Chloride Single Crystals and Their Charge Carrier Dynamics

Hang Yin, Bingxi Song, Yufeng Tong, Yuxin Zhan, Qinhua Wei, Peiqing Cai, Zugang Liu, Juntao Li, Junsheng Chen, Jianyong Liu, Da Chen, Laishun Qin

2024Laser & Photonics Review20 citationsDOI

Abstract

Abstract Scintillators have been widely used for high‐energy radiation imaging. It is in great demand and challenge to develop scintillator materials with fast decay time, high scintillation light yield, and low detection limit for high‐resolution imaging applications such as time‐of‐flight positron emission tomography. However, it is still a challenge to develop the ultrafast carrier dynamics to achieve 100% ultrafast decay time with high scintillation light yield. To meet the demand, a series of component‐tunable Cs 2 ZnCl 4 : x%Zr single crystals as promising ultrafast scintillators is successfully developed. With 8% of Zr‐dopant (Cs 2 ZnCl 4 : 8%Zr), the single crystal exhibits high light yield (28000 photons MeV −1 ) and low detection limit (51 nGy s −1 ) under X‐ray excitation. Photo‐induced transient absorption signals on sub‐nanosecond and nanosecond scales ensure almost 100% fast decay time (≈3 ns) in nanoseconds under γ‐ray excitation. In particular, the different radiative transition processes are achieved under ultraviolet and high‐energy radiation due to the tunable carrier dynamics from the shallow trapped state to the self‐trapped exciton (STE) state.

Topics & Concepts

ScintillatorZincZirconiumCaesiumDopingMaterials scienceCharge (physics)Ultrashort pulseChlorideInorganic chemistryChemistryOptoelectronicsPhysicsOpticsDetectorMetallurgyQuantum mechanicsLaserRadiation Detection and Scintillator TechnologiesAdvanced Semiconductor Detectors and MaterialsTerahertz technology and applications
Ultrafast Scintillator Based on Zirconium‐Doped Cesium Zinc Chloride Single Crystals and Their Charge Carrier Dynamics | Litcius