Add to ORKGAn infrared laser heterodyne system for obtaining height profiles of minor constituents of the atmosphere was developed and erected. A brief discription of the system is given. The system consists of a tunable CO2 waveguide laser in the 9 to 11 micrometer band, that is used as a local oscillator and a heliostat that follows the sun and brings in solar radiation, that is mixed with the laser beam in a high speed liquid nitrogen cooled mercury cadmium telluride detector. The detected signal is analysed in a RF spectrum analyser that allows tracing absorption line profiles. Absorption lines of a number of minor constituents in the troposphere and stratosphere, such as O3, NH3, H2O, SO2, ClO, N2O, are in the 9 to 11 micrometer band and overlap ...
We describe in this paper a laser heterodyne spectrometer for the 10 micron region (IR). A cw CO2 la...
The advantages of tunable diode laser absorption spectrometry (TDLAS) for measuring trace atmospheri...
Intensity profiles of infrared spectral lines of stratospheric constituents can be fully resolved wi...
The monitoring of vertical profiles of ozone and related minor constituents in the atmosphere are of...
309-317The monitoring of greenhouse gases has an important role in the understanding of global chang...
With the advent of stable, cw infrared lasers with moderate output power capabilities in the mid 196...
In this work, a systematic approach for remote sensing of stratospheric ozone was developed. Prelimi...
In this work, a systematic approach for remote sensing of stratospheric ozone was developed. Prelimi...
A stratospheric ozone absorption line in the 10 microns band was measured and resolved completely, u...
The increase of greenhouse gases concentration in the atmosphere leads to global warming, which has ...
International Telemetering Conference Proceedings / October 15-17, 1974 / International Hotel, Los A...
Laser Heterodyne Radiometry is a technique adapted from radio receiver technology has been used to m...
324-326An inversion technique, based on inverse solution of radiative transfer equation, to get vert...
An incoherent CO₂ laser radar, or lidar, system using a tunable CO₂ TEA laser has been developed, al...
A near infrared differential absorption lidar technique is developed using atmospheric oxygen as a t...
We describe in this paper a laser heterodyne spectrometer for the 10 micron region (IR). A cw CO2 la...
The advantages of tunable diode laser absorption spectrometry (TDLAS) for measuring trace atmospheri...
Intensity profiles of infrared spectral lines of stratospheric constituents can be fully resolved wi...
The monitoring of vertical profiles of ozone and related minor constituents in the atmosphere are of...
309-317The monitoring of greenhouse gases has an important role in the understanding of global chang...
With the advent of stable, cw infrared lasers with moderate output power capabilities in the mid 196...
In this work, a systematic approach for remote sensing of stratospheric ozone was developed. Prelimi...
In this work, a systematic approach for remote sensing of stratospheric ozone was developed. Prelimi...
A stratospheric ozone absorption line in the 10 microns band was measured and resolved completely, u...
The increase of greenhouse gases concentration in the atmosphere leads to global warming, which has ...
International Telemetering Conference Proceedings / October 15-17, 1974 / International Hotel, Los A...
Laser Heterodyne Radiometry is a technique adapted from radio receiver technology has been used to m...
324-326An inversion technique, based on inverse solution of radiative transfer equation, to get vert...
An incoherent CO₂ laser radar, or lidar, system using a tunable CO₂ TEA laser has been developed, al...
A near infrared differential absorption lidar technique is developed using atmospheric oxygen as a t...
We describe in this paper a laser heterodyne spectrometer for the 10 micron region (IR). A cw CO2 la...
The advantages of tunable diode laser absorption spectrometry (TDLAS) for measuring trace atmospheri...
Intensity profiles of infrared spectral lines of stratospheric constituents can be fully resolved wi...