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Remote Sensing of Atmospheric Winds Using Speckle-Turbulence Interaction, a CO2 Laser, and Optical Heterodyne Detection

机译：利用散斑 - 湍流相互作用，CO2激光和光学外差检测对大气风进行遥感

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Speckle-turbulence interaction can be utilized to measure the vector wind in a plane perpendicular to the line of sight from a laser transmitter to a target. A continuous wave source of around 1 W and operating at 10.6 micron, in conjunction with an optical heterodyne receiver, has been used to measure atmospheric winds along horizontal paths. A theoretical basis, the experimental apparatus, processing techniques, and experimental results are presented. The technique has been demonstrated for remote sensing of atmospheric winds along horizontal paths but also has potential for global remote sensing of atmospheric winds and for onboard wind shear detection systems for aircraft. The results show that rms accuracies of the order of 0.5 m/s are possible with averaging times as short as 2 s. Reprints. (RH)

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Holmes, J. F.; Amzajerdian, F.; Gudimetla, R. V.; Hunt, J. M.;
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年度 1988
页码 p.1-9
总页数 9
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Lasers; Optical detection; Receivers; Remote detectors; Transmitters; Wind; Accuracy; Aircraft; Continuous waves; Global; Heterodyning; Horizontal orientation; Methodology; Optical equipment; Paths; Processing; Reprints; Sources; Vector analysis;

机译：激光器;光学检测;接收器;远程探测器;发射器;风;精度;飞机;连续波;全球;外差;水平方向;方法;光学设备;路径;处理;重印;源;矢量分析;

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机译：基于广泛可调光学参数源的直接检测激光仪遥感大气边界层CO2遥感
2. A fibered near-infrared laser heterodyne radiometer for simultaneous remote sensing of atmospheric CO_2 and CH_4 [J] . Wang Jingjing, Sun Chunyan, Wang Guishi, Optics and Lasers in Engineering . 2020,第Juna期

机译：用于同时遥感的纤维近红外激光外差计，用于同时遥感大气CO_2和CH_4
3. Development of a tunable, narrow-linewidth, cw 2.066-mu m Ho : YLF laser for remote sensing of atmospheric CO2 and H2O [J] . Taczak TM., Killinger DK. Applied optics . 1998,第36期

机译：研制出可调谐，窄线宽，连续光2.066μmHo：YLF激光器，用于遥感大气中的CO2和H2O
4. Remote sensing of atmospheric turbulence and transverse atmospheric winds using optical reference sources [C] . Steven C. Koeffler, Air Force Institute of Technology, Wright-Patterson AFB, Atmospheric Propagation and Remote Sensing II . 1993

机译：使用光学参考源遥感大气湍流和横向大气风
5. DESIGN OF A HETERODYNE INFRARED LIDAR SYSTEM FOR REMOTE SENSING OF THE ATMOSPHERIC BOUNDARY LAYER [D] . WAITE, LARRY JACK. 1984

机译：大气边界层遥感外差红外激光系统设计
6. Special Section on Optical Imaging Sensing and Light Interactions in Cells and Tissues: Trimodal detection of early childhood caries using laser light scanning and fluorescence spectroscopy: clinical prototype [O] . Liang Zhang, Amy S. Kim, Jeremy S. Ridge, 2013

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7. Remote sensing of winds and atmospheric turbulence by cross correlation of passive optical signals [O] . Montgomery A. J. 1969

机译：通过无源光信号的互相关来遥感风和大气湍流
8. Remote Sensing of Atmospheric Winds by Utilizing Speckle-Turbulence Interaction and Optical Heterodyne Detection [R] . Holmes, J. F., Gudimetla, V. S. R. 1985

机译：利用散斑 - 湍流相互作用和光学外差检测遥感大气风

Remote Sensing of Atmospheric Winds Using Speckle-Turbulence Interaction, a CO2 Laser, and Optical Heterodyne Detection

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