Title :
Micro pulse lidar
Author :
Spinhirne, James D.
Author_Institution :
Goddard Space Flight Center, Greenbelt, MD, USA
fDate :
1/1/1993 12:00:00 AM
Abstract :
An eye safe, compact, solid-state lidar for profiling atmospheric cloud and aerosol scattering is described. The transmitter of the micro pulse lidar is a diode pumped microjoule pulse energy, high-repetition-rate Nd:YLF laser. Eye safety is obtained through beam expansion. The receiver uses a photon counting solid-state Geiger mode avalanche photodiode detector. Data acquisition is by a single card multichannel scaler. Daytime background induced quantum noise is controlled by a narrow receiver field-of-view (FOV) and a narrow bandwidth temperature controlled interference filter. Dynamic range of the signal is limited by optical geometric signal compression. Signal simulations and initial atmospheric measurements indicate that systems built on the micro pulse lidar concept are capable of detecting and profiling all significant cloud and aerosol scattering through the troposphere and into the stratosphere. The intended applications are scientific studies and environmental monitoring. which require full-time unattended measurements of the cloud and aerosol height structure
Keywords :
atmospheric measuring apparatus; optical radar; solid lasers; LiYF4:Nd; YLF:Nd laser; aerosol height structure; aerosol scattering; atmospheric cloud; diode pumped microjoule pulse energy; environmental monitoring; eye safe laser; high repetition rate laser; interference filter; micro pulse lidar; multichannel scaler; optical geometric signal compression; photon counting solid-state Geiger mode avalanche photodiode detector; solid-state lidar; stratosphere; troposphere; Aerosols; Clouds; Laser radar; Optical noise; Optical pulses; Optical receivers; Optical scattering; Optical transmitters; Particle scattering; Solid state circuits;
Journal_Title :
Geoscience and Remote Sensing, IEEE Transactions on
