Add to ORKGThe first infrared heterodyne spectrometer using tuneable semiconductor (PbSe) diode lasers has been constructed and was used near 8.5 micron to measure absorption line profiles of N2O in the laboratory and black body emission from the Moon and from Mars. Spectral information was recorded over a 200 MHz bandwidth using an 8-channel filter bank. The resolution was 25 MHz and the minimum detectable (black body) power was 1 x 10 to the minus 16th power watts for 8 minutes of integration. The results demonstrate the usefulness of heterodyne spectroscopy for the study of remote and local sources in the infrared
The development of open resonator mixer structures and laser local oscillators has made heterodyne s...
We present first results of a heterodyne receiver built for high-resolution emission laboratory spec...
Contains research objectives and summary of research on two research projects and a report on one re...
Heterodyne infrared astronomy was carried out using CO2 lasers and some solid state tunable lasers. ...
The use of infrared heterodyne spectrocopy for the study of planetary atmospheres is discussed. Infr...
A discussion and an evaluation of the degradation in sensitivity is given for a heterodyne spectrome...
Contains reports on five research projects.Joint Services Electronics Program (Contract DAAB07-76-C-...
This report summarizes work done under NASA Grant NAG2-753 awarded to the University of Colorado. Th...
The thermal infrared region contains molecular bands of many of the most important species in gaseou...
Heterodyne detection in the infrared and optical is a useful technique for systems applications such...
With the advent of stable, cw infrared lasers with moderate output power capabilities in the mid 196...
Infrared heterodyne techniques were considered primarily for detecting molecules predicted to be pre...
Contains research objectives and summary of research on five research projects.Joint Services Electr...
This task supports the application of infrared heterodyne and Fourier transform spectroscopy to ultr...
We present first results of a heterodyne receiver built for high-resolution emission laboratory spec...
The development of open resonator mixer structures and laser local oscillators has made heterodyne s...
We present first results of a heterodyne receiver built for high-resolution emission laboratory spec...
Contains research objectives and summary of research on two research projects and a report on one re...
Heterodyne infrared astronomy was carried out using CO2 lasers and some solid state tunable lasers. ...
The use of infrared heterodyne spectrocopy for the study of planetary atmospheres is discussed. Infr...
A discussion and an evaluation of the degradation in sensitivity is given for a heterodyne spectrome...
Contains reports on five research projects.Joint Services Electronics Program (Contract DAAB07-76-C-...
This report summarizes work done under NASA Grant NAG2-753 awarded to the University of Colorado. Th...
The thermal infrared region contains molecular bands of many of the most important species in gaseou...
Heterodyne detection in the infrared and optical is a useful technique for systems applications such...
With the advent of stable, cw infrared lasers with moderate output power capabilities in the mid 196...
Infrared heterodyne techniques were considered primarily for detecting molecules predicted to be pre...
Contains research objectives and summary of research on five research projects.Joint Services Electr...
This task supports the application of infrared heterodyne and Fourier transform spectroscopy to ultr...
We present first results of a heterodyne receiver built for high-resolution emission laboratory spec...
The development of open resonator mixer structures and laser local oscillators has made heterodyne s...
We present first results of a heterodyne receiver built for high-resolution emission laboratory spec...
Contains research objectives and summary of research on two research projects and a report on one re...