对B+注入的n on p平面结和分子束外延 (MBE)技术原位铟掺杂的n+ n p台面异质结的碲镉汞 (HgCdTe)长波光伏探测器暗电流进行了对比分析 .与n on p平面结器件相比 ,原位掺杂的n+ n p台面异质结器件得到较高的零偏动态阻抗 面积值 (R0 A) ...对B+注入的n on p平面结和分子束外延 (MBE)技术原位铟掺杂的n+ n p台面异质结的碲镉汞 (HgCdTe)长波光伏探测器暗电流进行了对比分析 .与n on p平面结器件相比 ,原位掺杂的n+ n p台面异质结器件得到较高的零偏动态阻抗 面积值 (R0 A) .通过与实验数据拟合 ,从理论上计算了这两种结构的器件在不同温度下的R0 A和在不同偏压下的暗电流 。展开更多
Crosstalk of HgCdTe long-wavelength infrared (LWIR) n-on-p diode arrays was measured using scanning laser microscopy. During the measurement, HgCdTe diode arrays with different diode pitches were frontside illuminat...Crosstalk of HgCdTe long-wavelength infrared (LWIR) n-on-p diode arrays was measured using scanning laser microscopy. During the measurement, HgCdTe diode arrays with different diode pitches were frontside illuminated by a He-Ne laser at liquid nitrogen temperature and room temperature. The experimental results show that crosstalk between the nearest neighboring diodes decreases exponentially as the diode pitch increases, and the factors that affect the obtained crosstalk are presented and analyzed. Crosstalk out of the nominal diode area (optically sensitive area) is also measured and discussed.展开更多
To measure the global atmospheric three-dimensional distribution and change of temperature and humidity is one of the key areas in atmospheric remote sensing detection; it is also a new research and development direct...To measure the global atmospheric three-dimensional distribution and change of temperature and humidity is one of the key areas in atmospheric remote sensing detection; it is also a new research and development direction in the field of meteorological satellite application. As a main element of China second generation of geostationary meteorological satellite Fengyun 4 (FY-4), which was launched on Dec. 11, 2016, the Geostationary Interferometric Infrared Sounder (GIIRS) is the first interferometric infrared sounder working on the international geostationary orbit. It is used for vertical atmospheric sounding and gains atmospheric temperature, humidity, and disturbances. The combination of Fourier transform spectrometer technology and infrared detectors makes GIIRS have high spectral resolution and large coverage over spatial areas. With this kind of instrument, meteoro- logical satellites can improve the capabilities for severe weather event monitoring and numerical weather prediction. Here a concise review of the GIIRS development project, including its history, missions and functions, technical design, key technologies, system integration, calibration and in-orbit operation status, etc., is presented.展开更多
文摘对B+注入的n on p平面结和分子束外延 (MBE)技术原位铟掺杂的n+ n p台面异质结的碲镉汞 (HgCdTe)长波光伏探测器暗电流进行了对比分析 .与n on p平面结器件相比 ,原位掺杂的n+ n p台面异质结器件得到较高的零偏动态阻抗 面积值 (R0 A) .通过与实验数据拟合 ,从理论上计算了这两种结构的器件在不同温度下的R0 A和在不同偏压下的暗电流 。
基金National Natural Science Foundation of China(51102184,51172163)National High Technology Research and Development Program of China(2013AA031801)+2 种基金National Key Technology Research and Development Program of China(2013BAJ01B01)Shanghai Municipal Science and Technology Commission Nano Special Project,China(12nm0503001,11nm0501600)Open Foundation of Key Laboratory of Infrared Imaging Materials and Detectors,China(IIMDKFJJ-12-04)
基金Project supported by the National Natural Science Foundation of China (Nos.60221502,10434090)the Shanghai City Committee of Science and Technology in China (Nos.07JC14058,0752nm016)
文摘Crosstalk of HgCdTe long-wavelength infrared (LWIR) n-on-p diode arrays was measured using scanning laser microscopy. During the measurement, HgCdTe diode arrays with different diode pitches were frontside illuminated by a He-Ne laser at liquid nitrogen temperature and room temperature. The experimental results show that crosstalk between the nearest neighboring diodes decreases exponentially as the diode pitch increases, and the factors that affect the obtained crosstalk are presented and analyzed. Crosstalk out of the nominal diode area (optically sensitive area) is also measured and discussed.
基金supported by the China’s National Key Special Earth Observation and Navigation Project,Ministry of Science and Technology of China(MOST)(No.2016YFB0500600)
文摘To measure the global atmospheric three-dimensional distribution and change of temperature and humidity is one of the key areas in atmospheric remote sensing detection; it is also a new research and development direction in the field of meteorological satellite application. As a main element of China second generation of geostationary meteorological satellite Fengyun 4 (FY-4), which was launched on Dec. 11, 2016, the Geostationary Interferometric Infrared Sounder (GIIRS) is the first interferometric infrared sounder working on the international geostationary orbit. It is used for vertical atmospheric sounding and gains atmospheric temperature, humidity, and disturbances. The combination of Fourier transform spectrometer technology and infrared detectors makes GIIRS have high spectral resolution and large coverage over spatial areas. With this kind of instrument, meteoro- logical satellites can improve the capabilities for severe weather event monitoring and numerical weather prediction. Here a concise review of the GIIRS development project, including its history, missions and functions, technical design, key technologies, system integration, calibration and in-orbit operation status, etc., is presented.