We report on the potential of the potassium magnesium fluoride (KMgF) crystal as a fast-response scintillator with tunable cross-luminescence (CL) emission wavelength through high-pressure applications. By performing first-principles density functional theory calculations using the Perdew–Burke–Ernzerhof (PBE) hybrid functional including exact exchange (PBE0) and Green’s function and screened Coulomb interaction approximation as implemented in the Vienna Ab initio Simulation Package using plane-wave basis sets within the projector-augmented wave method, we identify the specific valence-to-core band transition that results in the experimentally observed CL emission at 148 nm (8.38 eV) and 170 nm (7.29 eV) wavelengths with intrinsically fast decay times of 290 ps and 210 ps, respectively. Uniform volume compression through hydrostatic high-pressure applications could decrease the energy gap between the valence and core bands, potentially shifting the CL emission wavelength to the ultraviolet (UV) region from 200 nm (6.2 eV) to 300 nm (4.1 eV). The ability to tune and shift the CL emission to UV wavelengths allows for the detection of the CL emission using UV-sensitive photodetectors in ambient atmosphere instead of highly specialized vacuum UV detectors operating in vacuum while maintaining the intrinsically fast CL decay times, thereby opening up new possibilities for KMgF as a fast-response scintillator.
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28 March 2021
Research Article|
March 24 2021
Tunable vacuum ultraviolet cross-luminescence from KMgF under high pressure as potential fast-response scintillator
Special Collection:
Computational Materials Discovery
Marilou Cadatal-Raduban
;
Marilou Cadatal-Raduban
a)
1
Centre for Theoretical Chemistry and Physics, School of Natural and Computational Sciences, Massey University
, Albany, Auckland 0632, New Zealand
2
Institute of Laser Engineering, Osaka University
, 2-6 Yamadaoka, Suita, Osaka 565-0871, Japan
a)Authors to whom correspondence should be addressed: m.raduban@massey.ac.nz and luong-vm@ile.osaka-u.ac.jp
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Kohei Yamanoi
;
Kohei Yamanoi
2
Institute of Laser Engineering, Osaka University
, 2-6 Yamadaoka, Suita, Osaka 565-0871, Japan
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Akira Yoshikawa;
Akira Yoshikawa
3
New Industry Creation Hatchery Center (NICHe), Tohoku University 6-6-10
, Aoba, Aramaki, Aoba-Ku, Sendai, Miyagi 980-8579, Japan
4
Institute for Materials Research, Tohoku University 2-1-1
, Katahira, Aoba-Ku, Sendai, Miyagi 980-8577, Japan
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Yuui Yokota
;
Yuui Yokota
4
Institute for Materials Research, Tohoku University 2-1-1
, Katahira, Aoba-Ku, Sendai, Miyagi 980-8577, Japan
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Toshihiko Shimizu;
Toshihiko Shimizu
2
Institute of Laser Engineering, Osaka University
, 2-6 Yamadaoka, Suita, Osaka 565-0871, Japan
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Nobuhiko Sarukura;
Nobuhiko Sarukura
2
Institute of Laser Engineering, Osaka University
, 2-6 Yamadaoka, Suita, Osaka 565-0871, Japan
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Tadashi Togashi;
Tadashi Togashi
5
Japan Synchrotron Radiation Research Institute (JASRI)
, 1-1-1 Koto, Sayo-Cho, Sayo-Gun, Hyogo 679-5198, Japan
6
RIKEN SPring-8 Center
, 1-1-1 Koto, Sayo-Cho, Sayo-Gun, Hyogo 679-5148, Japan
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Akira Kondo;
Akira Kondo
7
Graduate School of Engineering, Osaka University
, 2-1 Yamadaoka, Suita, Osaka 565-0871, Japan
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Mui Viet Luong
Mui Viet Luong
a)
2
Institute of Laser Engineering, Osaka University
, 2-6 Yamadaoka, Suita, Osaka 565-0871, Japan
7
Graduate School of Engineering, Osaka University
, 2-1 Yamadaoka, Suita, Osaka 565-0871, Japan
a)Authors to whom correspondence should be addressed: m.raduban@massey.ac.nz and luong-vm@ile.osaka-u.ac.jp
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a)Authors to whom correspondence should be addressed: m.raduban@massey.ac.nz and luong-vm@ile.osaka-u.ac.jp
Note: This paper is part of the JCP Special Topic on Computational Materials Discovery.
J. Chem. Phys. 154, 124707 (2021)
Article history
Received:
January 12 2021
Accepted:
March 03 2021
Citation
Marilou Cadatal-Raduban, Kohei Yamanoi, Akira Yoshikawa, Yuui Yokota, Toshihiko Shimizu, Nobuhiko Sarukura, Tadashi Togashi, Akira Kondo, Mui Viet Luong; Tunable vacuum ultraviolet cross-luminescence from KMgF under high pressure as potential fast-response scintillator. J. Chem. Phys. 28 March 2021; 154 (12): 124707. https://doi.org/10.1063/5.0043966
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