荧光-米偏振激光雷达系统定标

Baowei Li; Siying Chen; Yinchao Zhang; Pan Guo; He Chen

荧光-米偏振激光雷达系统定标

Translated title of the contribution: The calibration of a fluorescence-Mie polarization lidar system

Baowei Li, Siying Chen^*, Yinchao Zhang, Pan Guo, He Chen

^*Corresponding author for this work

School of Optics and Photonics

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

4 Citations (Scopus)

Abstract

Air quality has become one of the most concerned social hot issues at present. Lidar is widely used to research this problem due to its temporal and spatial resolution capabilities. A calibration method for the first domestic self-developed fluorescence-Mie polarization lidar system of 355 nm is proposed and the retrieve precision of aerosols is improved effectively. The method includes calibration of the Mie polarization channels and the calibration of fluorescence and Mie channel. Several sets of calibration experiments were designed by the half-wave plate method and beam-splitter method to obtain the corresponding correlation coefficients and eliminate deviations between channels. The calibration results show that the correlation coefficient of the Mie polarization channel is 1.01, the standard deviation is less than 0.13, the average correlation coefficient of fluorescence and Mie channel is 1.13, and the standard deviation is less than 0.04.

Translated title of the contribution	The calibration of a fluorescence-Mie polarization lidar system
Original language	Chinese (Traditional)
Pages (from-to)	590-595
Number of pages	6
Journal	Guangxue Jishu/Optical Technique
Volume	45
Issue number	5
Publication status	Published - 1 Sept 2019

Cite this

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title = "荧光-米偏振激光雷达系统定标",

abstract = "Air quality has become one of the most concerned social hot issues at present. Lidar is widely used to research this problem due to its temporal and spatial resolution capabilities. A calibration method for the first domestic self-developed fluorescence-Mie polarization lidar system of 355 nm is proposed and the retrieve precision of aerosols is improved effectively. The method includes calibration of the Mie polarization channels and the calibration of fluorescence and Mie channel. Several sets of calibration experiments were designed by the half-wave plate method and beam-splitter method to obtain the corresponding correlation coefficients and eliminate deviations between channels. The calibration results show that the correlation coefficient of the Mie polarization channel is 1.01, the standard deviation is less than 0.13, the average correlation coefficient of fluorescence and Mie channel is 1.13, and the standard deviation is less than 0.04.",

keywords = "Calibration, Correlation coefficient, Fluorescence, Lidar, Polarization",

author = "Baowei Li and Siying Chen and Yinchao Zhang and Pan Guo and He Chen",

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TY - JOUR

T1 - 荧光-米偏振激光雷达系统定标

AU - Li, Baowei

AU - Chen, Siying

AU - Zhang, Yinchao

AU - Guo, Pan

AU - Chen, He

PY - 2019/9/1

Y1 - 2019/9/1

N2 - Air quality has become one of the most concerned social hot issues at present. Lidar is widely used to research this problem due to its temporal and spatial resolution capabilities. A calibration method for the first domestic self-developed fluorescence-Mie polarization lidar system of 355 nm is proposed and the retrieve precision of aerosols is improved effectively. The method includes calibration of the Mie polarization channels and the calibration of fluorescence and Mie channel. Several sets of calibration experiments were designed by the half-wave plate method and beam-splitter method to obtain the corresponding correlation coefficients and eliminate deviations between channels. The calibration results show that the correlation coefficient of the Mie polarization channel is 1.01, the standard deviation is less than 0.13, the average correlation coefficient of fluorescence and Mie channel is 1.13, and the standard deviation is less than 0.04.

AB - Air quality has become one of the most concerned social hot issues at present. Lidar is widely used to research this problem due to its temporal and spatial resolution capabilities. A calibration method for the first domestic self-developed fluorescence-Mie polarization lidar system of 355 nm is proposed and the retrieve precision of aerosols is improved effectively. The method includes calibration of the Mie polarization channels and the calibration of fluorescence and Mie channel. Several sets of calibration experiments were designed by the half-wave plate method and beam-splitter method to obtain the corresponding correlation coefficients and eliminate deviations between channels. The calibration results show that the correlation coefficient of the Mie polarization channel is 1.01, the standard deviation is less than 0.13, the average correlation coefficient of fluorescence and Mie channel is 1.13, and the standard deviation is less than 0.04.

KW - Calibration

KW - Correlation coefficient

KW - Fluorescence

KW - Lidar

KW - Polarization

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M3 - 文章

AN - SCOPUS:85073567469

SN - 1002-1582

VL - 45

SP - 590

EP - 595

JO - Guangxue Jishu/Optical Technique

JF - Guangxue Jishu/Optical Technique

IS - 5

ER -

荧光-米偏振激光雷达系统定标

Abstract

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