Analysis of Brillouin LIDAR equation and maximum detection depth in ocean telemetry

机译：海洋遥测中布里渊激光雷达方程和最大检测深度分析

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Brillouin Light Detection and Ranging (LIDAR) in ocean telemetry can be used for remote sensing of sound velocity, temperature and salinity profiles in the ocean. It is one of the most promising technologies to survey the ocean rapidly, for its virtues of flexibility, efficiency and high accuracy. On the basis of the pulse transmission process of stimulated Brillouin scattering (SBS), a Brillouin LIDAR equation is obtained, and the relationships between maximum detection depth and output energy per pulse of laser and attenuation coefficient of light in seawater are analyzed. The results show that increasing output energy of laser can improve the maximum detection depth of LIDAR system to a certain extent, and increasing the attenuation coefficient will lead to rapidly decline the maximum detection depth.

机译：Brillouin光检测和测距（LIDAR）在海洋遥测中可用于遥感海洋中声速，温度和盐度曲线。它是最有前途的技术迅速调查海洋的技术之一，因为它的灵活性，效率和高精度。基于刺激布里渊散射（SBS）的脉冲传输过程，分析了布里渊利来方程，分析了每种激光和海水中光脉冲脉冲脉冲的最大检测深度和输出能量之间的关系。结果表明，激光的越来越大的输出能量可以提高LIDAR系统的最大检测深度在一定程度上，并且增加衰减系数将导致最大的检测深度迅速下降。

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《Academic International Symposium on Optoelectronics and Microelectronics Technology》|2011年||共4页
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作者
Xiuyu Ren; Zhaoshuo Tian; Zihao Cui; Tianchi Xu; Libao Liu; Junguo Yang; Jing Wang; Shiyou Fu;
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中图分类 TN2-53;
关键词
LIDAR equation; detection depth; stimulated Brillouin scattering;

机译：LIDAR方程;检测深度;刺激布里渊散射;

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1. Lidar multiple scattering factors inferred from CALIPSO lidar and IIR retrievals of semi-transparent cirrus cloud optical depths over oceans [J] . Garnier A., Pelon J., Vaughan M. A., Atmospheric Measurement Techniques . 2015,第7期

机译：从CALIPSO激光雷达和IIR检索推断的半透明卷云光学深度的激光雷达多重散射因子
2. Lidar multiple scattering factors inferred from CALIPSO lidar and IIR retrievals of semi-transparent cirrus cloud optical depths over oceans [J] . A.Garnier, J.Pelon, M. A.Vaughan, Atmospheric Measurement Techniques . 2015,第7期

机译：从CALIPSO激光雷达和IIR检索推断的半透明卷云光学深度的激光雷达多重散射因子
3. Lidar multiple scattering factors inferred from CALIPSO lidar and IIR retrievals of semi-transparent cirrus cloud optical depths over oceans [J] . Garnier A., Pelon J., Vaughan M. A., Atmospheric Measurement Techniques Discussions . 2015,第7期

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4. Analysis of Brillouin LIDAR equation and maximum detection depth in ocean telemetry [C] . Xiuyu Ren, Zhaoshuo Tian, Zihao Cui, 2011 Academic International Symposium on Optoelectronics and Microelectronics Technology . 2011

机译：海洋遥测中布里渊LIDAR方程和最大探测深度的分析
5. Particulate Optical Depth Retrievals over the Ocean from Collocated Lidar and Microwave Satellite Observations [D] . Tang, Qiang. 2017

机译：通过并置激光雷达和微波卫星观测，对海洋上的特定光学深度进行检索
6. Depth- and range-dependent variation in the performance of aquatic telemetry systems: understanding and predicting the susceptibility of acoustic tag–receiver pairs to close proximity detection interference [O] . Stephen R. Scherrer, Brendan P. Rideout, Giacomo Giorli, -1

机译：水上遥测系统性能中与深度和距离相关的变化：了解和预测声标签接收器对近距离探测干扰的敏感性
7. Lidar multiple scattering factors inferred from CALIPSO lidar and IIR retrievals of semi-transparent cirrus cloud optical depths over oceans [O] . Garnier Anne, Pelon Jacques, Vaughan M. A., 2015

机译：从CALIPSO激光雷达和IIR检索推断的半透明卷云光学深度的激光雷达多重散射因子

Analysis of Brillouin LIDAR equation and maximum detection depth in ocean telemetry

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