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Range-Resolved DIAL for Eye-Safe
Detection of Carbon Dioxide--Coherent Technologies, Inc., 135 South Taylor
Avenue, Louisville, CO 80027; 303-604-2000,
www.ctilidar.com
Dr. John H. Marquardt, Principal
Investigator, john@ctildar.com
Dr. Timothy J. Carrig, Business
Official,
DOE Grant No. DE-FG02-03ER83629
Amount:
$99,993
Since the
start of the industrial revolution, the carbon dioxide concentration in the
atmosphere has risen from about 280 parts per million to greater then 360 parts
per million. As a leading greenhouse
gas, the understanding of the carbon cycle is critical for predictions of global
climate. Modern sensors that monitor
carbon dioxide have historically been constrained to point sensors or small
sample volumes that make it difficult to get the needed data for a full carbon
cycle understanding. To address the
need for better and more thorough carbon dioxide mapping, an eyesafe sensor,
based on differential-absorption-lidar (DIAL) remote sensing techniques, will be
designed and built. The sensor will
provide precise range-resolved concentration measurements of carbon dioxide over
large distances (greater than 1 km). Phase
I will address the specific needs of the scientific community by generating a
detailed lidar model for optimizing the laser system for the
differential-absorption-lidar sensor. This
effort will leverage other differential-absorption-lidar efforts that utilize
single-frequency transmitters operating at eyesafe wavelengths.