Gas correlation lidar for methane detection
Abstract
A new type of DIAL system for the detection of methane in the atmosphere is being developed. The main feature of this lidar is the use of a gas correlation technique to obtain the reference signal by means of a single laser pulse, instead of two shots at different wavelengths. This fact is useful to make measurements on fast moving platforms. To meet the infrared absorption band of methane an optical parametric oscillator (OPO) was used with a LiNbO3 crystal as active element, and a tuning range between 1.5 divided by 4 microns. As known, the major problem to overcome in parametric oscillators are the pump beam quality and the difficulty in reducing the linewidth. The first requirement is met by using, as a pump, a Nd-YAG laser based on a new type of resonator cavity, named SFUR (Self Filtering Unstable Resonator). The laser emits, with high efficiency, near diffraction limited pulsed beams of about 250 mJ of energy, 20 ns of duration at 10 pps of frequency repetition rate. On the other hand, the gas correlation technique allows the operation with a bandwidth as large as 1/cm, which is obtainable using only a diffraction grating as a dispersive element in the OPO cavity.
- Publication:
-
In NASA. Langley Research Center 13th International Laser Radar Conference 1 p (SEE N87-10263 01-35
- Pub Date:
- August 1986
- Bibcode:
- 1986lara.confS....G
- Keywords:
-
- Gas Detectors;
- Methane;
- Optical Radar;
- Radar Detection;
- Atmospheric Composition;
- Cavity Resonators;
- Infrared Absorption;
- Laser Outputs;
- Yag Lasers;
- Geophysics