| 光谱学与光谱分析 |
|
|
|
|
|
| Spectroscopic Properties of Pr3+ Doped Transparent Oxyfluoride Vitroceramics |
| CHEN Ying1, CHEN Xiao-bo1*, CHEN Luan1, YANG Xiao-dong1, HU Li-li2, WU Zheng-long1, YU Chun-lei2, WANG Ya-fei1, LIU Da-he1, TIAN Qiang1 |
1. Department of Physics, Applied Optics Beijing Area Major Laboratory, Analytical and Testing Center, Beijing Normal University, Beijing 100875, China
2. Shanghai Research Center of High Power Laser Glass, Chinese Academy of Sciences, Shanghai 201800, China |
|
|
|
|
Abstract In the present paper, the room-temperature absorption spectrum of Pr3+-doped transparent oxyfluoride vitroceramics(Pr(0.2)∶FOV )was studied systematically. The optical characterisation of Pr(0.2)∶FOV was performed. The standard and modified Judd-Ofelt theories were used to determine the J-O intensity parameters . The problems with standard Judd-Ofelt theorie for Pr3+ were discussed. Based on the intensity parameters, some predicted optical parameters, such as the spontaneous radiative transition probabilities, radiative lifetimes, branching ratios and integrated emission cross section were calculated. And the application of Pr∶FOV was analyzed. Especially there are large oscillator strength and large integrated emission cross section in the transitions of 3P0→3H4,3P1→3H5 and 3P0→3H6,3P0→3F2. So, they are more worth of attention. The obtained spectroscopic results show the potential application of the Pr3+-doped oxyfluoride vitroceramics for solid-state lasers.
|
|
Received: 2011-03-05
Accepted: 2011-06-29
|
|
|
|
Corresponding Authors:
CHEN Xiao-bo
E-mail: xbchen@bnu.edu.cn
|
|
[1] Miyajima Y, Sugawa T, Fukasaku Y. Electron. Lett., 1991, 27: 1706.
[2] Chen J, Gong X, Lin Y, et al. J. Alloys Compd., 2010, 492: 667.
[3] Pappalardo R. J. Lumin., 1976, 14: 159.
[4] CHEN Xiao-bo, LIAO Hong-bo, ZHANG Chun-ling(陈晓波, 廖红波, 张春玲). Acta Phys. Sin.(物理学报), 2010, 59: 5091.
[5] Peacock R D. Struct. Bond.,1975, 22: 83.
[6] Dunina E B, Kaminskii A A, Kornienko A A, et al. Sov. Phys. Solid State, 1990, 32: 920.
[7] Chen X B, Song Z F, Hu L L, et al. Opt. Express, 2007, 15: 13422.
[8] Génova R T, Martin I R. Journal of Alloys and Compounds, 2004, 380: 167.
[9] Carnall W T, Fields P R, Rajnak K. J. Chem. Phys., 1968, 49: 4412.
[10] Weber M J. J. Chem. Phys., 1968, 48: 4774.
[11] Kuck S, Sokolska I, Henke M. Phys. Rev. B, 2005, 71: 165112.
[12] Jorgensen C K, Reisfeld R. J. Less-Common Met., 1983, 93: 107.
[13] Quimby R S, Tick P A, et al. J. Appl. Phys., 1998, 83(3): 1648.
[14] Wang Y, Li J F, You Z Y, et al. J. Alloys Compd., 2010, 502: 184.
[15] Weber M J, Varitimos T E, Matsiner B H. Phys. Rev. B, 1973, 8: 47.
[16] Cao J F, Wang Y, Ma X H, et al. J. Alloys Compd., 2011, 509: 185.
[17] Maria C, Sabina B. Optical Materials, 2009, 31: 1898.
[18] Krupke W F. IEEE J. Quantum Electron., 1974, 10: 450. |
| [1] |
LI Xiao-dian1, TANG Nian1, ZHANG Man-jun1, SUN Dong-wei1, HE Shu-kai2, WANG Xian-zhong2, 3, ZENG Xiao-zhe2*, WANG Xing-hui2, LIU Xi-ya2. Infrared Spectral Characteristics and Mixing Ratio Detection Method of a New Environmentally Friendly Insulating Gas C5-PFK[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(12): 3794-3801. |
| [2] |
YAN Ming-liang1, ZHANG Chen-long2, ZHAO Lian-xiang3, ZHAO Hua-he4, GAO Xun2*. Spectral Characteristics of Ge Plasma Induced by Femtosecond Pulsed Laser Ablation[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(07): 2095-2098. |
| [3] |
YUAN Kai-xin, ZHUO Jin, ZHANG Qing-hua, LI Ya-guo*. Study on the Spectral and Laser Damage Resistance of CO2 Laser Modified Sol-Gel SiO2 Thin Films[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(06): 1752-1759. |
| [4] |
AN Huan1, YAN Hao-kui2, XIANG Mei1*, Bumaliya Abulimiti1*, ZHENG Jing-yan1. Spectral and Dissociation Characteristics of p-Dibromobenzene Based on External Electric Field[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(02): 405-411. |
| [5] |
CHEN Feng-nong1, SANG Jia-mao1, YAO Rui1, SUN Hong-wei1, ZHANG Yao1, ZHANG Jing-cheng1, HUANG Yun2, XU Jun-feng3. Rapid Nondestructive Detection and Spectral Characteristics Analysis of Factors Affecting the Quality of Dendrobium Officinale[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2021, 41(10): 3276-3280. |
| [6] |
WANG Wen, QIU Gui-hua*, PAN Shi-bing, ZHANG Rui-rong, HAN Jian-long, WANG Yi-ke, GUO Yu, YU Ming-xun. Terahertz Absorption and Molecular Vibration Characteristics of PA66 Polymer Material[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2020, 40(09): 2702-2706. |
| [7] |
WANG Yuan1, 2, 3, WANG Jin-liang1, 2, 3*. Chlorophyll Fluorescence-Spectral Characteristics of Vegetables Under Different Fertilizer Treatments[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2020, 40(08): 2427-2433. |
| [8] |
WU Qi-jun1, DU Qing1, HAN Li-min1, WANG Ling-xuan2. Study on Physical Properties and Spectra of AlO in External Radiation Field[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2020, 40(04): 1023-1027. |
| [9] |
FANG Zi-qiu1,2, CHEN Guo-qing1,2*, WU Ya-min1,2. Studyon the Spectral Properties of Riboflavin in Different Polar Solvents[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2020, 40(04): 1132-1136. |
| [10] |
LI Qing-ling1, 2, 3, YIN Da-yi1, 2, 3*. A Study of Spectral Polarization Properties of Oil Slick with Ellipsometry from Ultraviolet to Near-Infrared[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2019, 39(06): 1661-1666. |
| [11] |
WANG Jin-xia1, LUO Le1, CHEN Yu-cheng2, HE Qing-ming3, ZHAN Ling-ling1, ZHAO Xue1. Spectra Characteristic and Algicidal Mechanism Of Chryseobaterium sp. S7 on Microcystis Aeruginosa[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2019, 39(06): 1817-1822. |
| [12] |
ZHANG Zhi-heng, ZHAO Fei, YANG Wen*, MO Jing-hui, GE Wen, LI Xue-ming, YANG Pei-zhi. Effect of Pulse Power on the Phase Structure and Spectral Properties of SiCx Thin Films Containing Si Quantum Dots[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2019, 39(02): 529-534. |
| [13] |
LI Wen-cui1, DONG Gang-song1, LIU Yan2, LIU Yong-gang2. Study on the Spectrum Characteristics of Dye Doped Liquid Crystal Laser[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2018, 38(10): 3273-3277. |
| [14] |
WANG Qiang1, LI Xin-yi1*, CHANG Tian-ying2, 3, HU Qiu-ping1, BAI Jin-peng4. Terahertz Time-Domain Spectroscopic Study of Aircraft Composite and Matrix Resins[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2018, 38(09): 2706-2712. |
| [15] |
WU Fu-fei1, 2, DONG Shuang-kuai1*, ZHAO Zhen-hua1, GONG Jing-wei2, SHI Ke-bin2. Stuay of Mineral Admixtures as Fine Aggregate on Hydration Products and Spectral Performance of Mortar[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2018, 38(09): 2853-2859. |
|
|
|
|
