Detection of Hazardous Substances Using Broadband-Tuneable Quantum Cascade Laser Based Mid-Infrared Spectroscopy

F. Fuchs; S. Hugger; J. Jarvis; Q. K. Yang; R. Ostendorf; C. Schilling; R. Driad; R. Aidam; A. Bächle; W. Bronner; J. Wagner

2013 Conference on Lasers and Electro-Optics - International Quantum Electronics Conference
(Optica Publishing Group, 2013),
paper JSII_P_2

Detection of Hazardous Substances Using Broadband-Tuneable Quantum Cascade Laser Based Mid-Infrared Spectroscopy

F. Fuchs, S. Hugger, J. Jarvis, Q. K. Yang, R. Ostendorf, C. Schilling, R. Driad, R. Aidam, A. Bächle, W. Bronner, and J. Wagner

International Quantum Electronics Conference 2013

Munich Germany
12–16 May 2013
ISBN: 978-1-4799-0594-2

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F. Fuchs, S. Hugger, J. Jarvis, Q. K. Yang, R. Ostendorf, C. Schilling, R. Driad, R. Aidam, A. Bächle, W. Bronner, and J. Wagner, "Detection of Hazardous Substances Using Broadband-Tuneable Quantum Cascade Laser Based Mid-Infrared Spectroscopy," in 2013 Conference on Lasers and Electro-Optics - International Quantum Electronics Conference, (Optica Publishing Group, 2013), paper JSII_P_2.

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Abstract

Broadband tunable external cavity quantum cascade lasers (EC-QCL) have emerged as attractive light sources for mid-infrared (MIR) “finger print” molecular spectroscopy for e.g. detection and identification of chemical compounds. Compared to Fourier Transform Infrared (FTIR) spectrometers EC-QCLs offer the advantage of a much higher spectral brightness, i.e. high output power within a narrow wavelength interval, as well as a collimated low-divergence output beam, thus enabling e.g. stand-off detection schemes. Here we report on the use of EC-QCLs for spectroscopic detection of hazardous substances. We present stand-off detection of explosives and sensing of hazardous substances in water as two prototypical examples.

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