Angle-dependent quantum efficiency correction for improved signal accuracy in small-scale Scheimpflug lidar systems

Siying Chen; Jiarui Yin; He Chen; Wangshu Tan; Pan Guo; Yurong Jiang; Qingyue Xu; Daoming Li; Fan Xue; Huiyun Wu

doi:10.1364/AO.523145

Angle-dependent quantum efficiency correction for improved signal accuracy in small-scale Scheimpflug lidar systems

Siying Chen, Jiarui Yin, He Chen^*, Wangshu Tan, Pan Guo, Yurong Jiang, Qingyue Xu, Daoming Li, Fan Xue, Huiyun Wu

^*此作品的通讯作者

光电学院

科研成果: 期刊稿件 › 文章 › 同行评审

摘要

Wide-incidence-angle detection in Scheimpflug lidar causes pixel-wise variations in signal intensity due to differences in quantum efficiency across the detector. This study proposes an angular response correction factor and a correction method to address the difference caused by a wide incidence angle. A Scheimpflug lidar system was developed with a 405 nm laser and an array image sensor; it achieved a detection angle of 11.4^◦. Experiments with uniform atmosphere and smoke aerosols demonstrated the effectiveness of the correction method. For uniform atmosphere, it ensured consistent signal intensity. In smoke aerosol detection, the Klett method revealed the correction factor’s role in counteracting small-scale variations in the extinction coefficient. The method improved the extinction coefficient accuracy within 4 m by 4%–75%.

源语言	英语
页（从-至）	4668-4678
页数	11
期刊	Applied Optics
卷	63
期	17
DOI	https://doi.org/10.1364/AO.523145
出版状态	已出版 - 10 6月 2024

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Chen, S., Yin, J., Chen, H., Tan, W., Guo, P., Jiang, Y., Xu, Q., Li, D., Xue, F., & Wu, H. (2024). Angle-dependent quantum efficiency correction for improved signal accuracy in small-scale Scheimpflug lidar systems. Applied Optics, 63(17), 4668-4678. https://doi.org/10.1364/AO.523145

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title = "Angle-dependent quantum efficiency correction for improved signal accuracy in small-scale Scheimpflug lidar systems",

abstract = "Wide-incidence-angle detection in Scheimpflug lidar causes pixel-wise variations in signal intensity due to differences in quantum efficiency across the detector. This study proposes an angular response correction factor and a correction method to address the difference caused by a wide incidence angle. A Scheimpflug lidar system was developed with a 405 nm laser and an array image sensor; it achieved a detection angle of 11.4◦. Experiments with uniform atmosphere and smoke aerosols demonstrated the effectiveness of the correction method. For uniform atmosphere, it ensured consistent signal intensity. In smoke aerosol detection, the Klett method revealed the correction factor{\textquoteright}s role in counteracting small-scale variations in the extinction coefficient. The method improved the extinction coefficient accuracy within 4 m by 4%–75%.",

author = "Siying Chen and Jiarui Yin and He Chen and Wangshu Tan and Pan Guo and Yurong Jiang and Qingyue Xu and Daoming Li and Fan Xue and Huiyun Wu",

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year = "2024",

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doi = "10.1364/AO.523145",

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T1 - Angle-dependent quantum efficiency correction for improved signal accuracy in small-scale Scheimpflug lidar systems

AU - Chen, Siying

AU - Yin, Jiarui

AU - Chen, He

AU - Tan, Wangshu

AU - Guo, Pan

AU - Jiang, Yurong

AU - Xu, Qingyue

AU - Li, Daoming

AU - Xue, Fan

AU - Wu, Huiyun

PY - 2024/6/10

Y1 - 2024/6/10

N2 - Wide-incidence-angle detection in Scheimpflug lidar causes pixel-wise variations in signal intensity due to differences in quantum efficiency across the detector. This study proposes an angular response correction factor and a correction method to address the difference caused by a wide incidence angle. A Scheimpflug lidar system was developed with a 405 nm laser and an array image sensor; it achieved a detection angle of 11.4◦. Experiments with uniform atmosphere and smoke aerosols demonstrated the effectiveness of the correction method. For uniform atmosphere, it ensured consistent signal intensity. In smoke aerosol detection, the Klett method revealed the correction factor’s role in counteracting small-scale variations in the extinction coefficient. The method improved the extinction coefficient accuracy within 4 m by 4%–75%.

AB - Wide-incidence-angle detection in Scheimpflug lidar causes pixel-wise variations in signal intensity due to differences in quantum efficiency across the detector. This study proposes an angular response correction factor and a correction method to address the difference caused by a wide incidence angle. A Scheimpflug lidar system was developed with a 405 nm laser and an array image sensor; it achieved a detection angle of 11.4◦. Experiments with uniform atmosphere and smoke aerosols demonstrated the effectiveness of the correction method. For uniform atmosphere, it ensured consistent signal intensity. In smoke aerosol detection, the Klett method revealed the correction factor’s role in counteracting small-scale variations in the extinction coefficient. The method improved the extinction coefficient accuracy within 4 m by 4%–75%.

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JO - Applied Optics

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Angle-dependent quantum efficiency correction for improved signal accuracy in small-scale Scheimpflug lidar systems

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