Research progress in development of Ce3+-doped scintillation glass

Zhehao Hua; Zexuan Sui; Sen Qian; Jing Ren; Yao Zhu; Laishun Qin; Gao Tang; Yufeng Tong; Xinyuan Sun; Yufeng Wen; Shan Liu; Huiyun Ban; Hui Liu; Hua Cai; Jifeng Han; Zhile Wang; Lishuang Ma

doi:10.12086/oee.2023.220247

Journals >Opto-Electronic Engineering >Volume 50 >Issue 5 >Page 220247 > Article

Opto-Electronic Engineering
Vol. 50, Issue 5, 220247 (2023)

Research progress in development of Ce³⁺-doped scintillation glass

Zhehao Hua, Zexuan Sui, Sen Qian^*, Jing Ren..., Yao Zhu, Laishun Qin, Gao Tang, Yufeng Tong, Xinyuan Sun, Yufeng Wen, Shan Liu, Huiyun Ban, Hui Liu, Hua Cai, Jifeng Han, Zhile Wang and Lishuang Ma|Show fewer author(s)

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[in Chinese]

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DOI: 10.12086/oee.2023.220247 Cite this Article

Zhehao Hua, Zexuan Sui, Sen Qian, Jing Ren, Yao Zhu, Laishun Qin, Gao Tang, Yufeng Tong, Xinyuan Sun, Yufeng Wen, Shan Liu, Huiyun Ban, Hui Liu, Hua Cai, Jifeng Han, Zhile Wang, Lishuang Ma. Research progress in development of Ce³⁺-doped scintillation glass[J]. Opto-Electronic Engineering, 2023, 50(5): 220247 Copy Citation Text

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Fig. 1. System of scintillation performance test

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The energy level transition mechanism of Ce3+ center

Fig. 2. The energy level transition mechanism of Ce³⁺ center

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Fig. 3. (a) The energy spectra of aluminoborosilicate glass and BGO crystal under ¹³⁷Cs (662 keV) source; (b) Afterglow curve

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Fig. 4. Scintillation properties of Gd₂O₃–Al₂O₃–SiO₂glasses, (a) the XEL spectra, (b) energy spectra (¹³⁷Cs) of the glasses and BGO crystal

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Fig. 5. (a) The energy spectra of K₂O–Y₂O₃–Gd₂O₃–SiO₂ glass ceramic under ¹³⁷Cs (662 keV) source with BGO crystal; (b) The scintillation decay time curve

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参数	Parameter	Abbreviations
密度	Density	Den.
发射峰	Emission peak	EP
量子产率	Quantum yield	QY
光致发光衰减时间	Photoluminescence decay time	PL DT
闪烁衰减时间	Scintillation decay time	Sc. DT
光产额	Light yield	LY
能量分辨率	Energy resolution	ER

Table 1. Performance parameters of scintillation glass

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Num.	Den./(g/cm³)	EP/nm	QY/%	PL DT/ns	Sc. DT/ns	LY/(ph/MeV)	ER/%
B-1	3.8	400	42	36	/	/	/
B-2	/	360	50	33.4	27.2	/	/
B-3	3.4	360	70.1	37.89	40.1, 270.8	1800	/
B-4	/	360	82	38	42, 202	256	/
B-5	/	380	/	37.63	-	/	/

Table 2. Performance parameters of Ce³⁺-doped borate glasses

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Num.	Den./(g/cm³)	EP/nm	QY/%	PL DT/ns	Sc. DT/ns	LY/(ph/MeV)	ER/%
S-1	4.2	430	/	43.9, 73.8	90.8, 415.6	2500	/
S-2	/	420	2	3	3.5	700	/
S-3	4.4	431	/	/	522	3460	14
S-4	/	410	20	38.1	109	/	/
S-5	4.5	430	/	44, 89	93, 317	2000	/

Table 3. Performance parameters of Ce³⁺-doped silicate glasses

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Num.	Den. /(g/cm³)	EP/nm	QY/%	PL DT/ns	Sc DT/ns	ER/%
BS-1	4.9	420	/	/	400	/
BS-2	3.9	403	/	26.6	/	/
BS-3	/	350	8	30.8	64	/
BS-4	2.4	368	/	40	/	/

Table 4. Performance parameters of Ce³⁺-doped borosilicate glasses

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Num.	Den./(g/cm³)	EP/nm	QY/%	PL DT/ns	Sc. DT/ns	LY/(ph/MeV)
H-1	6.9	325	/	5.5, 23.4	/	/
H-2	6.0	325	/	33.2	8, 25	150
H-3	4.6	367	/	35	37	97.2
H-4	/	330	58.7	35.4	34.9, 203.7	93
H-5	/	350	75.7	26.1	24.0	23

Table 5. Performance parameters of Ce³⁺-doped halide glasses

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Num.	Den./(g/cm³)	EP/nm	QY/%	PL DT/ns	Sc. DT/ns	LY/(ph/MeV)	ER/%
GC-1	2.45	/	/	/	/	240% GS20	/
GC-2	/	397	/	42	/	/	/
GC-3	/	370	/	33	/	/	/
GC-4	/	420	/	38.2	/	/	/

Table 6. Performance parameters of Ce³⁺-doped glass ceramics

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Num.	Den./(g/cm³)	EP/nm	PLDT/ns	Sc.DT/ns	LY/(ph/MeV)	ER/%
GS-1	4.5	390	41.69	262.1, 1234.8	802	26.8
GS-2	4.2	430	63.44	346.3, 1740.1	1206	23.0
GC-1	3.2	380	53.6	/	853	22.3
GC-2	3.3	380	/	210.4, 1622.0	1601	27.3

Table 7. Performance of scintillation glass developed by R&D group

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