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  总访问量
 9315
  访问来源
    内部: 5
    外部: 9310
    国内: 8948
    国外: 367

  年访问量
 3860
  访问来源
    内部: 0
    外部: 3860
    国内: 3794
    国外: 66

  月访问量
 367
  访问来源
    内部: 0
    外部: 367
    国内: 332
    国外: 35

访问量

访问量

1. 高功率垂直外腔面发射半导体激光器增益设计及制备 [2561]
2. Polarization-controlled and single-transverse-mode vertical-cavity.. [2429]
3. 1160nm光泵垂直外腔面发射激光器设计及制备 [2277]
4. 全频域下窄线宽激光器光谱线宽的分析 [2249]
5. 910 nm vertical-cavity surface-emitting laser arrays with 100W out.. [2166]
6. High-Power-Density High-Efficiency Bottom-Emitting Vertical-Cavity.. [2151]
7. InGaAs-Based Well-Island Composite Quantum-Confined Structure with.. [2129]
8. 一种自动聚焦垂直腔面发射激光器 [2086]
9. 1160nm光泵外腔面发射激光器设计及制备 [2019]
10. 面向激光显示的红光半导体激光器的研究进展 [2001]
11. Angular characteristics of pulse laser echo signal in participatin.. [1846]
12. 硅光子芯片外腔窄线宽半导体激光器 [1760]
13. 894nm高温垂直腔面发射激光器及其芯片级铯原子钟系统的应用 [1292]
14. Red photoluminescence due to energy transfer from Eu(2+) to Cr(3+).. [1150]
15. Photoluminescent properties of yellow emitting Ca1-xEu xSi2O2-N2+2.. [1114]
16. 852nm半导体激光器量子阱设计与外延生长 [1057]
17. 高功率InGaAs/GaAsP应变量子阱垂直腔面发射激光器列阵 [1035]
18. 852nm半导体激光器InGaAlAs、InGaAsP、InGaAs和GaAs量子阱的温度稳定性 [1003]
19. RAS在线监测AlGaAs的MOCVD生长 [979]
20. A new emission band of Eu2+ and its efficient energy transfer to M.. [966]
21. Photoluminescent properties of yellow emitting Ca(1-x)Eu(x)Si(2)O(.. [957]
22. Yellow-emitting (Ca2Lu1-xCex)(ScMg)Si3O12 phosphor and its applica.. [954]
23. 弯曲波导研究进展及其应用 [939]
24. 多层AlGaAs的时间分辨归一化反射率及各向异性反射率谱在线监测及分析 [912]
25. 980nm高功率垂直腔面发射激光列阵的单元结构优化 [911]
26. 高光束质量新型垂直腔面发射激光器阵列 [908]
27. 910nm高峰值功率垂直腔面发射激光光源 [886]
28. High-Power Bottom-Emitting Vertical-Cavity Surface-Emitting Lasers.. [881]
29. 外部光反馈对980nm垂直腔面发射激光器振荡特性的影响 [854]
30. 980-nm High-Power Low-Divergence VCSELs Achieved by Optimization o.. [848]
31. RAS在线监测AlGaAs的MOCVD生长(英文) [827]
32. 1.3-mu m emission of Nd : LaF3 thin films grown by molecular beam .. [825]
33. Long lasting yellow phosphorescence and photostimulated luminescen.. [825]
34. 电泵浦垂直外腔面发射激光器振荡特性的理论分析及实验研究 [806]
35. 大功率垂直腔面发射激光器列阵的热模拟及优化 [805]
36. 反射各向异性谱在线监测852nm半导体激光器AlGaInAs/AlGaAs量子阱的MOCV.. [803]
37. 氧化孔径对高功率垂直腔面发射激光器温升的影响 [800]
38. Crystal structure and luminescence properties of (Ca2.94-xLuxCe0.0.. [797]
39. High-Power Bottom-Emitting Vertical-Cavity Surface-Emitting Lasers.. [796]
40. High-Power Large-Aperture Bottom-Emitting 980-nm VCSELs With Integ.. [792]
41. High-Power-Density High-Efficiency Bottom-Emitting Vertical-Cavity.. [789]
42. 非对称电流注入对矩形台面激光器的偏振分析 [777]
43. 光纤光栅外腔半导体激光器的线宽特性研究 [774]
44. Fabrication of the slanted electrode matrix on tilting 4.5 (1 1 1).. [771]
45. Research of null optics testing for elliptical windows [767]
46. Few-mode vertical-cavity surface-emitting laser Optional emission .. [763]
47. Luminescent organic 1D nanomaterials based on Bis(-diketone)carbaz.. [762]
48. A linear array of 980 nm VCSEL and its high temperature operation .. [759]
49. Direct calculation of 4f(3)-4f(3) transition intensities in Nd3+-d.. [759]
50. Luminescent Properties in Relation to Controllable Phase and Morph.. [756]
51. A green-yellow emitting beta-Sr2SiO4 : Eu2+ phosphor for near ultr.. [755]
52. Efficient diode-end-pumped Yb:CaNb2O6 thin-disk laser at 1003 nm a.. [748]
53. 大功率垂直腔底发射半导体激光器的光束质量 [745]
54. Upconversion fluorescence of Ho3+ ions in a BaF2 crystal [745]
55. Large-diameter mirror stitching accuracy analysis based on self-te.. [744]
56. 大功率VCSEL器件的空间相干性的研究(英文) [742]
57. Coherent polarization stabilization in large-aperture rectangular .. [734]
58. Tunable full-color-emitting Ca3Sc2Si3O12:Ce3+, Mn2+ phosphor via c.. [733]
59. 高功率窄脉冲垂直腔面发射激光器n-DBR反射率的优化 [732]
60. Low Thermal Crosstalk 808-nm VCSEL Arrays With Nonlinear Mesa Conf.. [729]
61. 颌面骨三维有限元模型中骨缝实体模型的建立 [728]
62. 基于载流子注入产热机制的半导体激光器热模型分析 [728]
63. 外部光反馈半导体激光器的结构优化研究 [722]
64. Intense violet-blue emitting (CaCl(2)/SiO(2)) : Eu(2+) phosphor po.. [721]
65. 应用唇舌弓式口内装置进行前方牵引的三维有限元分析 [717]
66. 外部光反馈对980nm垂直腔面发射激光器振荡特性的影响 [715]
67. Energy transfer upconversion in Ho3+ and Ho3+, Yb3+ doped CdF2 cry.. [713]
68. Oscillation characteristics of electrically-pumped vertical extern.. [710]
69. 电泵浦顶发射垂直外腔面发射激光器 (发明) [709]
70. 增益-腔模失配型高温工作垂直腔面发射半导体激光器 [706]
71. Light-current characteristics of vertical-cavity surface-emitting .. [703]
72. In-situ monitoring of AlGaAs growth by reflectance anisotropy spec.. [702]
73. Photon cascade luminescence in CaAl12O19 : Pr, Cr [701]
74. Analysis and testing on imaging-performance stability of TMA space.. [695]
75. A green-yellow emitting -Sr2SiO4:Eu2+ phosphor for near ultraviole.. [691]
76. 光纤光栅外腔半导体激光器噪声特性仿真 [691]
77. Efficient energy transfer and photoluminescent characteristics in .. [681]
78. 介质膜集成衬底垂直外腔面发射激光器 [678]
79. 大功率VCSEL三角列阵的空间相干性 [672]
80. 高峰值功率808nm垂直腔面发射激光器列阵 [671]
81. 980nm高峰值功率微型化VCSEL脉冲激光光源 [671]
82. 浅面浮雕矩形台面垂直腔面发射半导体激光器 [666]
83. 原子传感用垂直腔面发射激光器研究进展 [663]
84. Control of turbulence in a two-dimensional coupled map lattice [662]
85. Flux and concentration effect on Eu3+ doped Gd2(MoO4)3 phosphor [655]
86. Controlling spatiotemporal chaos via phase space compression [651]
87. 微型铷原子钟专用795nm垂直腔表面发射激光器 [648]
88. Infrared-laser-induced upconversion from Nd3+: LaF3 heteroepitaxia.. [646]
89. Study of whispering-gallery-mode in a photonic crystal microcavity [645]
90. Echo characteristic of Gaussian pulse laser in anisotropic scatter.. [641]
91. 透明导电薄膜ITO对浅面浮雕VCSEL的影响 [640]
92. Design of compact athermalizing uncooled infrared optical system [639]
93. Erratum: High-peak-power vertical-cavity surface-emitting laser qu.. [631]
94. 基于拉曼光谱技术的光栅耦合结构半导体激光器的可靠性分析 [631]
95. Improved adaptive extended Kalman algorithm for attitude estimatio.. [626]
96. Design of multi-pulse trigger system for rotated spark switch [624]
97. Technology of large aperture off-axis parabolic mirror with tri-st.. [624]
98. A precise method to measure the on-orbit point spread function of .. [617]
99. Controlling spatiotemporal chaos in coupled map lattice systems [616]
100. 780nm波段低填充因子半导体激光器列阵的光束质量研究 [614]

下载量

1. 高功率垂直外腔面发射半导体激光器增益设计及制备 [1750]
2. 1160nm光泵垂直外腔面发射激光器设计及制备 [1738]
3. 全频域下窄线宽激光器光谱线宽的分析 [1729]
4. Polarization-controlled and single-transverse-mode vertical-cavity.. [1726]
5. InGaAs-Based Well-Island Composite Quantum-Confined Structure with.. [1634]
6. 面向激光显示的红光半导体激光器的研究进展 [1629]
7. 1160nm光泵外腔面发射激光器设计及制备 [1611]
8. High-Power-Density High-Efficiency Bottom-Emitting Vertical-Cavity.. [1606]
9. 一种自动聚焦垂直腔面发射激光器 [1601]
10. 910 nm vertical-cavity surface-emitting laser arrays with 100W out.. [1600]
11. 硅光子芯片外腔窄线宽半导体激光器 [1418]
12. Angular characteristics of pulse laser echo signal in participatin.. [1253]
13. 弯曲波导研究进展及其应用 [479]
14. 980nm高功率垂直腔面发射激光列阵的单元结构优化 [348]
15. 852nm半导体激光器InGaAlAs、InGaAsP、InGaAs和GaAs量子阱的温度稳定性 [341]
16. RAS在线监测AlGaAs的MOCVD生长 [313]
17. 910nm高峰值功率垂直腔面发射激光光源 [313]
18. Yellow-emitting (Ca2Lu1-xCex)(ScMg)Si3O12 phosphor and its applica.. [296]
19. 852nm半导体激光器量子阱设计与外延生长 [296]
20. 高光束质量新型垂直腔面发射激光器阵列 [289]
21. 颌面骨三维有限元模型中骨缝实体模型的建立 [282]
22. 高功率InGaAs/GaAsP应变量子阱垂直腔面发射激光器列阵 [279]
23. 非对称电流注入对矩形台面激光器的偏振分析 [271]
24. Photoluminescent properties of yellow emitting Ca1-xEu xSi2O2-N2+2.. [265]
25. 多层AlGaAs的时间分辨归一化反射率及各向异性反射率谱在线监测及分析 [264]
26. 用于量子传感的窄线宽无磁垂直腔面发射激光器 [262]
27. Photoluminescent properties of yellow emitting Ca(1-x)Eu(x)Si(2)O(.. [260]
28. 894nm高温垂直腔面发射激光器及其芯片级铯原子钟系统的应用 [256]
29. RAS在线监测AlGaAs的MOCVD生长(英文) [254]
30. High-Power Bottom-Emitting Vertical-Cavity Surface-Emitting Lasers.. [253]
31. Crystal structure and luminescence properties of (Ca2.94-xLuxCe0.0.. [253]
32. 微型铷原子钟专用795nm垂直腔表面发射激光器 [253]
33. 大功率VCSEL器件的空间相干性的研究(英文) [248]
34. Red photoluminescence due to energy transfer from Eu(2+) to Cr(3+).. [245]
35. Layout optimization of equal-force supports for ultra-large optica.. [245]
36. Preparation of magnetorheological polishing fluid and its polishin.. [244]
37. A green-yellow emitting beta-Sr2SiO4 : Eu2+ phosphor for near ultr.. [242]
38. 氧化孔径对高功率垂直腔面发射激光器温升的影响 [242]
39. Energy transfer upconversion in Ho3+ and Ho3+, Yb3+ doped CdF2 cry.. [239]
40. 增益-腔模失配型高温工作垂直腔面发射半导体激光器 [234]
41. 980-nm High-Power Low-Divergence VCSELs Achieved by Optimization o.. [233]
42. 大功率VCSEL三角列阵的空间相干性 [233]
43. Long lasting yellow phosphorescence and photostimulated luminescen.. [231]
44. Narcissus analysis for cooled staring IR system (EI CONFERENCE) [230]
45. 反射各向异性谱在线监测852nm半导体激光器AlGaInAs/AlGaAs量子阱的MOCV.. [228]
46. High-Power Bottom-Emitting Vertical-Cavity Surface-Emitting Lasers.. [228]
47. High-Power Large-Aperture Bottom-Emitting 980-nm VCSELs With Integ.. [227]
48. 795 nm VCSELs for 87Rb based miniaturized atomic clock [226]
49. 780nm波段低填充因子半导体激光器列阵的光束质量研究 [226]
50. 外部光反馈对980nm垂直腔面发射激光器振荡特性的影响 [225]
51. Design of compact athermalizing uncooled infrared optical system [224]
52. Optical design of an avionic helmet-mounted displays using freefor.. [223]
53. Large-diameter mirror stitching accuracy analysis based on self-te.. [222]
54. 高峰值功率808nm垂直腔面发射激光器列阵 [221]
55. Flux and concentration effect on Eu3+ doped Gd2(MoO4)3 phosphor [220]
56. 外部光反馈半导体激光器的结构优化研究 [220]
57. 大功率垂直腔底发射半导体激光器的光束质量 [219]
58. Improved performances of 850 nm vertical cavity surface emitting l.. [219]
59. 基于拉曼光谱技术的光栅耦合结构半导体激光器的可靠性分析 [218]
60. 浅面浮雕矩形台面垂直腔面发射半导体激光器 [217]
61. Two-lens athermalized infrared telephoto objective [212]
62. Synthesis and photoluminescence properties of Eu2+ doped Sr9Sc(PO4.. [211]
63. Low Thermal Crosstalk 808-nm VCSEL Arrays With Nonlinear Mesa Conf.. [211]
64. 介质膜集成衬底垂直外腔面发射激光器 [209]
65. Technology of large aperture off-axis parabolic mirror with tri-st.. [209]
66. 高功率窄脉冲垂直腔面发射激光器n-DBR反射率的优化 [206]
67. 电泵浦垂直外腔面发射激光器振荡特性的理论分析及实验研究 [204]
68. 光纤光栅外腔半导体激光器的线宽特性研究 [204]
69. High-Power-Density High-Efficiency Bottom-Emitting Vertical-Cavity.. [203]
70. 980nm高峰值功率微型化VCSEL脉冲激光光源 [203]
71. 1.3-mu m emission of Nd : LaF3 thin films grown by molecular beam .. [202]
72. Oscillation characteristics of electrically-pumped vertical extern.. [201]
73. 应用唇舌弓式口内装置进行前方牵引的三维有限元分析 [198]
74. 透明导电薄膜ITO对浅面浮雕VCSEL的影响 [197]
75. Sub-aperture stitching interferometry based on non-ideal standard .. [196]
76. Fabrication of the slanted electrode matrix on tilting 4.5 (1 1 1).. [194]
77. 原子传感用垂直腔面发射激光器研究进展 [194]
78. Coherent polarization stabilization in large-aperture rectangular .. [193]
79. Luminescent organic 1D nanomaterials based on Bis(-diketone)carbaz.. [193]
80. Control of turbulence in a two-dimensional coupled map lattice [192]
81. Luminescence Properties of Tb3+, Eu3+, Tm3+ Co-Doped Na5La(MoO4)(4.. [191]
82. Upconversion fluorescence of Ho3+ ions in a BaF2 crystal [190]
83. 光纤光栅外腔半导体激光器噪声特性仿真 [187]
84. Few-mode vertical-cavity surface-emitting laser Optional emission .. [187]
85. Improved adaptive extended Kalman algorithm for attitude estimatio.. [186]
86. Si/SiO_2高对比光栅参数对反射率的影响 [186]
87. An easily prepared carbon quantum dots and employment for inverted.. [186]
88. A precise method to measure the on-orbit point spread function of .. [184]
89. Method to determine vertex radius of off-axis aspheric mirror base.. [184]
90. 大功率垂直腔面发射激光器列阵的热模拟及优化 [183]
91. Controlling spatiotemporal chaos via phase space compression [177]
92. In-situ monitoring of AlGaAs growth by reflectance anisotropy spec.. [175]
93. 基于载流子注入产热机制的半导体激光器热模型分析 [173]
94. Study of whispering-gallery-mode in a photonic crystal microcavity [172]
95. Tunable full-color-emitting Ca3Sc2Si3O12:Ce3+, Mn2+ phosphor via c.. [172]
96. Direct calculation of 4f(3)-4f(3) transition intensities in Nd3+-d.. [171]
97. Intense violet-blue emitting (CaCl(2)/SiO(2)) : Eu(2+) phosphor po.. [168]
98. A green-yellow emitting -Sr2SiO4:Eu2+ phosphor for near ultraviole.. [165]
99. Luminescent Properties in Relation to Controllable Phase and Morph.. [165]
100. Design of multi-pulse trigger system for rotated spark switch [165]