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    Journals >Laser & Optoelectronics Progress >Volume 59 >Issue 15 >Page 1516010 > Article
    • Laser & Optoelectronics Progress
    • Vol. 59, Issue 15, 1516010 (2022)
    Scintillating Performance of Sn2+-Doped Transparent Borosilicate Glass
    Rongfei Wei†、*, Li Wang†、*, Fumin Lu, Fangfang Hu, and Hai Guo
    Author Affiliations
  • Department of Physics, Zhejiang Normal University, Jinhua 321004, Zhejiang , China
    • show less
    DOI: 10.3788/LOP202259.1516010 Cite this Article Set citation alerts
    Rongfei Wei, Li Wang, Fumin Lu, Fangfang Hu, Hai Guo. Scintillating Performance of Sn2+-Doped Transparent Borosilicate Glass[J]. Laser & Optoelectronics Progress, 2022, 59(15): 1516010 Copy Citation Text show less
    Emission spectra of different GxSnO samples. (a) Transmission spectra; (b) excitation spectra; (c) spectra obtained by 312 nm UV excitation; (d) emission spectra obtained by X-ray irradiation
    Fig. 1. Emission spectra of different GxSnO samples. (a) Transmission spectra; (b) excitation spectra; (c) spectra obtained by 312 nm UV excitation; (d) emission spectra obtained by X-ray irradiation
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    Decay curve of the G1SnO sample
    Fig. 2. Decay curve of the G1SnO sample
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    Emission spectra of different samples. (a) XRD; (b) transmission spectra; (c) excitation spectra; (d) emission spectra of 312 nm UV light
    Fig. 3. Emission spectra of different samples. (a) XRD; (b) transmission spectra; (c) excitation spectra; (d) emission spectra of 312 nm UV light
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    XEL spectra of different samples
    Fig. 4. XEL spectra of different samples
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    XEL and transmission spectra under different X-ray power irradiation. (a) XEL spectra of G1SnO400 sample; (b) transmission spectra before and after X-ray irradiation and after repaired
    Fig. 5. XEL and transmission spectra under different X-ray power irradiation. (a) XEL spectra of G1SnO400 sample; (b) transmission spectra before and after X-ray irradiation and after repaired
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    Spectra of G1SnO400 samples at different temperatures. (a) Variable temperature spectra; (b) temperature-dependent integrated intensity
    Fig. 6. Spectra of G1SnO400 samples at different temperatures. (a) Variable temperature spectra; (b) temperature-dependent integrated intensity
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    Glass sampleG0.2SnOG0.5SnOG1SnOG2SnOG3SnO
    XEL properties7.9011.1518.2014.8513.63
    Table 1. Scintillation properties of GxSnO samples and BGO
    MaterialMaterialXEL /%Ref.
    BGOsingle crystal100.027
    70TeO2-20ZnO-2Lu2O3-8Eu2O3glass6.028
    28.875B2O3-8.25GeO2-45.375TeO2-10Gd2O3-7.5Tb2O3glass9.129
    10CaO-25Gd2O3-10SiO2-54.75B2O3-0.25Sm2O3glass25.030
    50SiO2-14B2O3-10Al2O3-3Na2CO3-8MgO-8ZnO-3.5ZrO2-3.5Gd2O3-1SnO(G1SnO400)glass25.1ours
    Table 2. XEL of different scintillation glasses
    Abstract
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    Rongfei Wei, Li Wang, Fumin Lu, Fangfang Hu, Hai Guo. Scintillating Performance of Sn2+-Doped Transparent Borosilicate Glass[J]. Laser & Optoelectronics Progress, 2022, 59(15): 1516010
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    Paper Information
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