Measurement of Optically Pumped }^ Laser Frequencies Between 3 and 9 THz

The CH 3 18 OH isotopic form of methanol has been reinvestigated as a source of far-infrared (FIR) radiation using an optically pumped molecular laser system designed for wavelengths below 100 μm. With this system, four FIR laser emissions have been discovered, ranging in wavelength from 33.15 to 51...

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Bibliographic Details
Published in:IEEE journal of quantum electronics 2011-03, Vol.47 (3), p.386-389
Main Authors: Jackson, M, Milne, J A, Zink, L R
Format: Article
Language:English
Subjects:
far-infrared laser frequency
Finite impulse response filter
Frequency measurement
Measurement by laser beam
Optical pumping
optically pumped molecular laser
Pump lasers
Semiconductor lasers
three-laser heterodyne
{{\rm CH}_{3}}^{18}{\rm OH}
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Summary:The CH 3 18 OH isotopic form of methanol has been reinvestigated as a source of far-infrared (FIR) radiation using an optically pumped molecular laser system designed for wavelengths below 100 μm. With this system, four FIR laser emissions have been discovered, ranging in wavelength from 33.15 to 51.97 μm. The 33.15-μm line is the shortest known laser wavelength generated by optically pumped CH 3 18 OH. These lines are reported with their operating pressure, polarization relative to the CO 2 pump laser, and their relative strength. The frequencies of these new laser emissions, along with eight previously reported lines, were measured using heterodyne techniques and are reported with fractional uncertainties up to ±2 × 10 -7 . The offset frequency of the CO 2 pump laser was measured with respect to its center frequency for each FIR laser emission.
ISSN:0018-9197
1558-1713
DOI:10.1109/JQE.2010.2090513