Wavelength-independent light extraction enhancement by nanostructures for scintillators with broadband emission

Zhang, F. F.; Huang, Yi; Guo, Yaozhen; Zhang, Juannan; Ouyang, Xiaoping; Liu, Bo

doi:10.1063/5.0149814

Applied Physics Letters

2023

DOI: 10.1063/5.0149814

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Wavelength-independent light extraction enhancement by nanostructures for scintillators with broadband emission

F. F. Zhang

Yi Huang

Yaozhen Guo

et al.

Abstract: Conventional photonic crystals with a single period are capable of enhancing the light output of scintillators based on the partial elimination of internal total reflection. However, the enhancement often comes along with a strong wavelength dependence, leading to a severe spectrum distortion. Here, the nanostructures for wavelength-independent light extraction enhancement, namely, multi-size spherical nanostructures, are designed and fabricated. The nanostructure can efficiently outcouple the scintillation li… Show more

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2024

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Cited by 3 publications

References 34 publications

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Selective enhancement of deep ultraviolet luminescence in barium fluoride scintillators via photonic crystal structures

Zhang,

Ouyang,

Peng

et al. 2024

Applied Physics Letters

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Barium fluoride (BaF2) scintillators are known for their various applications in high-energy particle detection due to their ultrafast scintillation component that lies within the deep ultraviolet spectral band. However, their slow scintillation component can cause issues in high-rate applications. The slow component can be suppressed by ion-doping, whereas the fast component should be enhanced to further improve the performance of BaF2 scintillators. Here, we utilize photonic crystal structures to selectively enhance the deep ultraviolet fast component of BaF2 scintillators. The photonic crystal structures, composed of hollow shell arrays, are designed to selectively couple with the fast component via surface lattice resonances. An enhancement with a ratio of 1.69 in the light output of the fast component is achieved without affecting the slow component. In addition to the applications on BaF2 scintillators, we anticipate that this light manipulation approach, which selectively enhances emission at specific deep ultraviolet band, could be expanded to other important fields, such as deep ultraviolet light-emitting diodes and solar cells.

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Selective enhancement of deep ultraviolet luminescence in barium fluoride scintillators via photonic crystal structures

Zhang,

Ouyang,

Peng

et al. 2024

Applied Physics Letters

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Resonant Metasurface-Mediated Light Output of Barium Fluoride Scintillators: Design and Simulation

Zhang,

Liu,

Chen

et al. 2024

IEEE Trans. Nucl. Sci.

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超构表面调控可见光发射及其应用（特邀）

Wang Shaojun,

Zhang Zhenghe,

Hou Ziyue

et al. 2024

激光与光电子学进展

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Wavelength-independent light extraction enhancement by nanostructures for scintillators with broadband emission

Cited by 3 publications

References 34 publications

Selective enhancement of deep ultraviolet luminescence in barium fluoride scintillators via photonic crystal structures

Selective enhancement of deep ultraviolet luminescence in barium fluoride scintillators via photonic crystal structures

Resonant Metasurface-Mediated Light Output of Barium Fluoride Scintillators: Design and Simulation

超构表面调控可见光发射及其应用（特邀）

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