Retrival Method of Side-Scatter Lidar Signal Based on Charge Coupled Device Technique

“…Backscattering lidar is a powerful tool to detect aerosol profile, and is widely used in atmospheric monitoring (Weitkamp, 2005;Winker et al, 2007;Bo et al, 2014;Wang et al, 2014b). But the common backscattering lidar system has a shortcoming in the lower hundreds of meters because of the geometric form factor (GFF) caused by the configuration of the transmitter divergence and receiver's field of view (FOV) at the near range (Mao et al, 2012;Wang et al, 2015b). With the recently developed technique of the CCD side-scattering lidar (Bernes et al, 2003;Tao et al, 2014a;Ma et al, 2014), the problem caused by the GFF could be solved.…”

“…But the common backscattering lidar system has a shortcoming in the lower hundreds of meters because of the geometric form factor (GFF) caused by the configuration of the transmitter divergence and receiver's field of view (FOV) at the near range (Mao et al, 2012;Wang et al, 2015b). With the recently developed technique of the CCD side-scattering lidar (Bernes et al, 2003;Tao et al, 2014a;Ma et al, 2014), the problem caused by the GFF could be solved. Moreover, the nearer range and the better spatial resolution could be obtained.…”

Profiling the PM<sub>2.5</sub> mass concentration vertical distribution in the boundary layer

“…Backscattering lidar is a powerful tool to detect aerosol profile, and is widely used in atmospheric monitoring (Weitkamp, 2005;Winker et al, 2007;Bo et al, 2014;Wang et al, 2014b). But the common backscattering lidar system has a shortcoming in the lower hundreds of meters because of the geometric form factor (GFF) caused by the configuration of the transmitter divergence and receiver's field of view (FOV) at the near range (Mao et al, 2012;Wang et al, 2015b). With the recently developed technique of the CCD side-scattering lidar (Bernes et al, 2003;Tao et al, 2014a;Ma et al, 2014), the problem caused by the GFF could be solved.…”

“…But the common backscattering lidar system has a shortcoming in the lower hundreds of meters because of the geometric form factor (GFF) caused by the configuration of the transmitter divergence and receiver's field of view (FOV) at the near range (Mao et al, 2012;Wang et al, 2015b). With the recently developed technique of the CCD side-scattering lidar (Bernes et al, 2003;Tao et al, 2014a;Ma et al, 2014), the problem caused by the GFF could be solved. Moreover, the nearer range and the better spatial resolution could be obtained.…”

Profiling the PM<sub>2.5</sub> mass concentration vertical distribution in the boundary layer

“…The side-scattering light is received by a CCD camera with 3352 × 2532 pixels. The exposed time is set as 5 min according to the signal-to-noise ratio with a maximum relative error of 1.5 % caused by noises (Ma et al, 2014), and there is an interference filter with 30 nm bandwidth in front of CCD lens. Through geometric calibration, the relationship between the pixels and the corresponding scattering lights in laser beam is determined.…”

“…But the common backscattering lidar system has a shortcoming in the lower hundreds of meters because of the geometric form factor (GFF) caused by the configuration of the transmitter divergence and receiver's field of view (FOV) at the near range (Mao et al, 2012;Wang et al, 2015b). With the recently developed technique of the CCD side-scattering lidar (Bernes et al, 2003;Tao et al, 2014a;Ma et al, 2014), the problem caused by the GFF could be solved. Moreover, the nearer range and the better spatial resolution could be obtained.…”

Profiling the PM<sub>2.5</sub> mass concentration vertical distribution in the boundary layer

Current status and development trends of wind measurement lidar technology and its applications