High-spectral-resolution terahertz imaging with a quantum-cascade laser
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Date
2016
Volume
24
Issue
13
Journal
Series Titel
Book Title
Publisher
Washington, DC : Optical Society of America
Link to publishers version
Abstract
We report on a high-spectral-resolution terahertz imaging system operating with a multi-mode quantum-cascade laser (QCL), a fast scanning mirror, and a sensitive Ge:Ga detector. By tuning the frequency of the QCL, several spectra can be recorded in 1.5 s during the scan through a gas cell filled with methanol (CH3OH). These experiments yield information about the local absorption and the linewidth. Measurements with a faster frame rate of up to 3 Hz allow for the dynamic observation of CH3OH gas leaking from a terahertz-transparent tube into the evacuated cell. In addition to the relative absorption, the local pressure is mapped by exploiting the effect of pressure broadening.
Description
Keywords
Terahertz imaging, Semiconductor lasers, quantum cascade, Spectroscopy, terahertz
Citation
Hagelschuer, T., Rothbart, N., Richter, H., Wienold, M., Schrottke, L., Grahn, H. T., & Hübers, H.-W. (2016). High-spectral-resolution terahertz imaging with a quantum-cascade laser. 24(13). https://doi.org//10.1364/OE.24.013839
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License
CC BY 4.0 Unported