A series of scintillating glass in SiO2-Li2O-CaO, SiO2-Li2O-CaO-Gd2O3 were developed to explore the influence of different composition on the density and the luminescent properties of the sample. The effects of Ce^3+...A series of scintillating glass in SiO2-Li2O-CaO, SiO2-Li2O-CaO-Gd2O3 were developed to explore the influence of different composition on the density and the luminescent properties of the sample. The effects of Ce^3+ sources and melting atmosphere on the light yield of the scintillating glass were investigated. Results show that the highest density of the scintillating glass in this study is as high as 3.3 g/cm^3 and the highest light yield have reached 1175 phonons/Mev, which is about 3% of the light output of NaI:Ti. The introduction of Gd2O3 in the system could increase the glass density visibly and do not lower the light yield of the scintillating glass. The glass-melting atmosphere has strong influence on the light yield of Ce^3+-doped scintillating glasses and strong reducing atmosphere results in high light yield. The light yield of scintillating glass with Ce^3+ from CeF3 is much higher than that of corresponding glass with Ce^3+ from Ce2O3.展开更多
Eu3+-activated B2O3-GeO2-37Gd2O3-3Eu2O3-(15-x)GdF3-xBaF2 (0≤x≤15) scintillating glasses with the density of 6.1-6.3 g/cm3 were synthesized by a melt-quenching method. The substitution of BaF2 for expensive GdF3...Eu3+-activated B2O3-GeO2-37Gd2O3-3Eu2O3-(15-x)GdF3-xBaF2 (0≤x≤15) scintillating glasses with the density of 6.1-6.3 g/cm3 were synthesized by a melt-quenching method. The substitution of BaF2 for expensive GdF3 in oxyfluoride borogermanate glasses slightly decreased the glass density within 3.0%. Their optical properties were characterized by transmittance, photolumines- cence (excitation and emission), and X-ray excited luminescence (XEL) spectra in detail. The emission intensity of Eu3+ ions increased with the elevated x values. The Eu-O covalancey nature and the local environment of Eu3+ ions were evaluated by Judd-Ofelt results. It was found that the covalency property of Eu-O bond increased with increasing x values.展开更多
Tb3+-doped high density borogermanate glasses were prepared by melt-quenching method. Their physical and luminescent properties including differential thermal analysis(DTA), density, transmittance spectra, photolum...Tb3+-doped high density borogermanate glasses were prepared by melt-quenching method. Their physical and luminescent properties including differential thermal analysis(DTA), density, transmittance spectra, photoluminescence, and X-ray excited luminescence spectra were investigated. The densities of the glasses doped with Tb3+ were in the range from 5.690 to 6.086 g/cm3. Under UV and X-ray excitations, the glasses showed intense green emissions. The lifetimes of Tb3+ doped borogermanate glasses were in the range from 1.597 to 1.869 ms. The results indicated that Tb3+ doped borogermanate glasses could be scintillator candidate used in X-ray detection application.展开更多
The Al-Ca-Ba glass system with good chemical durability was firstly investigated as the scintillators host. Luminescence properties of Ce3+ ions in this glass were studied, and obvious red shift and larger stokes shi...The Al-Ca-Ba glass system with good chemical durability was firstly investigated as the scintillators host. Luminescence properties of Ce3+ ions in this glass were studied, and obvious red shift and larger stokes shift with respect to others system were investigared. The excellent physical property such as high density and large refractive index implies this glass as an important material for the high quality scintillating fiber.展开更多
Purpose Glass is a potential choice for the scintillator in Hadronic calorimetry(HCAL)of the CEPC.It requires sophisticated instruments and suitable methods to obtain scintillation properties of the glasses in the fir...Purpose Glass is a potential choice for the scintillator in Hadronic calorimetry(HCAL)of the CEPC.It requires sophisticated instruments and suitable methods to obtain scintillation properties of the glasses in the first time.It is necessary to establish an evaluation method for nuclear radiation detection performance of glass scintillator.Methods The spectroscopy research of the glass includes transmission/absorption spectrum and emission spectrum.The time characteristics include rise time,scintillation decay time and afterglow.The scintillation properties include light yield,energy resolution and minimum ionizing particle(MIP)response.And a new method for measuring the low light yield of glass scintillators is proposed.Results We have built a complete performance test system and evaluation method,which can evaluate the nuclear radiation detection performance of different glass scintillators.Conclusion By continuously improving the composition and preparation process of the glass,it can provide potential possibilities for the application in the high-energy physics experiment and nuclear radiation detection fields.展开更多
Europium(Eu^3+) doped glasses of chemical compositions(55-x)B2O3:10 SiO2:25 Y2O3:10CaO:xEu2O3,where x denotes mol% and ranges 0≤ x ≤ 2.5, were synthesized by adopting conventional melt quenching technique, ...Europium(Eu^3+) doped glasses of chemical compositions(55-x)B2O3:10 SiO2:25 Y2O3:10CaO:xEu2O3,where x denotes mol% and ranges 0≤ x ≤ 2.5, were synthesized by adopting conventional melt quenching technique, Physical properties like density, molar volume, polaron radius, inter-ionic distance and field strength of the glass samples were investigated to assess the impact of Eu2O3. Optical and luminescence properties of the glasses were characterized with optical absorption, photoluminescence,X-ray induced emission spectra, temperature dependence emission spectra and decay times. Judd-Ofelt(JO) intensity parameters(Ωλ) of the glasses were evaluated based on the absorption spectrum of 0.5 mol%. JO parameters, calculated from absorption spectra with thermal corrections on oscillator strength, were used to evaluate radiative properties such as radiative transition probability(AR),branching ratio(βR), stimulated cross section emission(σ) and radiative lifetime(τR) for 5D0→7 FJ(J = 0,1,2,3 and 4) transitions. The decay rate of 5D0 fluorescent level for all the glass samples was single exponential. Lifetimes of the 5D0 level were decreased with increasing concentrations of Eu^3+ions from 0.05 mol% to 2.5 mol% which might be due to energy transfer through cross-relaxation in the glasses. The chromaticity coordinates(x, y) were similar for all BSYCaEu glasses and were located at the red region of CIE 1931 color chromaticity diagram. Hence, these results confirm that the Eu^3+ doped BSYCaEu glasses could be useful for visible red lasers and glass scintillation applications.展开更多
We report on a comparison study of the 3He gas proportional tube and the 6Li incorporated scintillation glasses on thermal neutron detection efficiency. Both 3He and 6Li are used commonly for thermal neutron detection...We report on a comparison study of the 3He gas proportional tube and the 6Li incorporated scintillation glasses on thermal neutron detection efficiency. Both 3He and 6Li are used commonly for thermal neutron detection because of their high neutron capture absorption coefficient. By using a neutron source 252Cf and a paraffin moderator in an alignment system, we can get a small beam of thermal neutrons. A flash ADC is used to measure the thermal neutron spectrum of each detector, and the detected number of events is determined from the spectrum, then we can calculate the detection efficiency of different detectors. Meanwhile, the experiment has been modeled with GEANT4 to validate the results against the Monte Carlo simulation.展开更多
基金Supported by the National Natural Science Foundation of China (No.50572090)
文摘A series of scintillating glass in SiO2-Li2O-CaO, SiO2-Li2O-CaO-Gd2O3 were developed to explore the influence of different composition on the density and the luminescent properties of the sample. The effects of Ce^3+ sources and melting atmosphere on the light yield of the scintillating glass were investigated. Results show that the highest density of the scintillating glass in this study is as high as 3.3 g/cm^3 and the highest light yield have reached 1175 phonons/Mev, which is about 3% of the light output of NaI:Ti. The introduction of Gd2O3 in the system could increase the glass density visibly and do not lower the light yield of the scintillating glass. The glass-melting atmosphere has strong influence on the light yield of Ce^3+-doped scintillating glasses and strong reducing atmosphere results in high light yield. The light yield of scintillating glass with Ce^3+ from CeF3 is much higher than that of corresponding glass with Ce^3+ from Ce2O3.
基金supported by the National Natural Science Foundation of China(11165010,11465010)Natural Science Foundation of Jiangxi Province(20142BAB202006,20152ACB21017)+2 种基金the Training Program of Young Scientists(Jing Gang Star)in Jiangxi Province(20133BCB23023)the Key Subject of Atomic&Molecular Physics in Jiangxi Province(2011-2015)the Open Fund of Key Laboratory of Transparent Opto-functional Inorganic Materials,SICCAS
文摘Eu3+-activated B2O3-GeO2-37Gd2O3-3Eu2O3-(15-x)GdF3-xBaF2 (0≤x≤15) scintillating glasses with the density of 6.1-6.3 g/cm3 were synthesized by a melt-quenching method. The substitution of BaF2 for expensive GdF3 in oxyfluoride borogermanate glasses slightly decreased the glass density within 3.0%. Their optical properties were characterized by transmittance, photolumines- cence (excitation and emission), and X-ray excited luminescence (XEL) spectra in detail. The emission intensity of Eu3+ ions increased with the elevated x values. The Eu-O covalancey nature and the local environment of Eu3+ ions were evaluated by Judd-Ofelt results. It was found that the covalency property of Eu-O bond increased with increasing x values.
基金supported by the National Natural Science Foundation of China(11375166,51372236)
文摘Tb3+-doped high density borogermanate glasses were prepared by melt-quenching method. Their physical and luminescent properties including differential thermal analysis(DTA), density, transmittance spectra, photoluminescence, and X-ray excited luminescence spectra were investigated. The densities of the glasses doped with Tb3+ were in the range from 5.690 to 6.086 g/cm3. Under UV and X-ray excitations, the glasses showed intense green emissions. The lifetimes of Tb3+ doped borogermanate glasses were in the range from 1.597 to 1.869 ms. The results indicated that Tb3+ doped borogermanate glasses could be scintillator candidate used in X-ray detection application.
基金Funded by the National Natural Science Foundation of China (No. 50672092)
文摘The Al-Ca-Ba glass system with good chemical durability was firstly investigated as the scintillators host. Luminescence properties of Ce3+ ions in this glass were studied, and obvious red shift and larger stokes shift with respect to others system were investigared. The excellent physical property such as high density and large refractive index implies this glass as an important material for the high quality scintillating fiber.
基金supported by National Natural Science Foundation of China(No.12175253,12335012)the Program of Science Technology Service Network of Chinese Academy of Science,Youth Innovation Promotion Association CAS.
文摘Purpose Glass is a potential choice for the scintillator in Hadronic calorimetry(HCAL)of the CEPC.It requires sophisticated instruments and suitable methods to obtain scintillation properties of the glasses in the first time.It is necessary to establish an evaluation method for nuclear radiation detection performance of glass scintillator.Methods The spectroscopy research of the glass includes transmission/absorption spectrum and emission spectrum.The time characteristics include rise time,scintillation decay time and afterglow.The scintillation properties include light yield,energy resolution and minimum ionizing particle(MIP)response.And a new method for measuring the low light yield of glass scintillators is proposed.Results We have built a complete performance test system and evaluation method,which can evaluate the nuclear radiation detection performance of different glass scintillators.Conclusion By continuously improving the composition and preparation process of the glass,it can provide potential possibilities for the application in the high-energy physics experiment and nuclear radiation detection fields.
基金Project supported by the Ministry of Science and Technology(MEST),Korea(2015R1A2A1A13001843)Kyungpook National University Research Fund,2016,National Research Council of Thailand(NRCT)Nakhon Pathom Rajabhat University(NPRU)(GB_60_25)
文摘Europium(Eu^3+) doped glasses of chemical compositions(55-x)B2O3:10 SiO2:25 Y2O3:10CaO:xEu2O3,where x denotes mol% and ranges 0≤ x ≤ 2.5, were synthesized by adopting conventional melt quenching technique, Physical properties like density, molar volume, polaron radius, inter-ionic distance and field strength of the glass samples were investigated to assess the impact of Eu2O3. Optical and luminescence properties of the glasses were characterized with optical absorption, photoluminescence,X-ray induced emission spectra, temperature dependence emission spectra and decay times. Judd-Ofelt(JO) intensity parameters(Ωλ) of the glasses were evaluated based on the absorption spectrum of 0.5 mol%. JO parameters, calculated from absorption spectra with thermal corrections on oscillator strength, were used to evaluate radiative properties such as radiative transition probability(AR),branching ratio(βR), stimulated cross section emission(σ) and radiative lifetime(τR) for 5D0→7 FJ(J = 0,1,2,3 and 4) transitions. The decay rate of 5D0 fluorescent level for all the glass samples was single exponential. Lifetimes of the 5D0 level were decreased with increasing concentrations of Eu^3+ions from 0.05 mol% to 2.5 mol% which might be due to energy transfer through cross-relaxation in the glasses. The chromaticity coordinates(x, y) were similar for all BSYCaEu glasses and were located at the red region of CIE 1931 color chromaticity diagram. Hence, these results confirm that the Eu^3+ doped BSYCaEu glasses could be useful for visible red lasers and glass scintillation applications.
基金National Natural Science Foundation of China (11061140514)
文摘We report on a comparison study of the 3He gas proportional tube and the 6Li incorporated scintillation glasses on thermal neutron detection efficiency. Both 3He and 6Li are used commonly for thermal neutron detection because of their high neutron capture absorption coefficient. By using a neutron source 252Cf and a paraffin moderator in an alignment system, we can get a small beam of thermal neutrons. A flash ADC is used to measure the thermal neutron spectrum of each detector, and the detected number of events is determined from the spectrum, then we can calculate the detection efficiency of different detectors. Meanwhile, the experiment has been modeled with GEANT4 to validate the results against the Monte Carlo simulation.