QCL Based Detection of Hazardous Substances

C. Kumar N. Patel; Arkadiy Lyakh; Richard Maulini; Ilya Dunayevsiy; Alexei Tsekoun

2013 Conference on Lasers and Electro-Optics - International Quantum Electronics Conference
(Optica Publishing Group, 2013),
paper JSII_1_1

QCL Based Detection of Hazardous Substances

C. Kumar N. Patel, Arkadiy Lyakh, Richard Maulini, Ilya Dunayevsiy, and Alexei Tsekoun

International Quantum Electronics Conference 2013

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

From the session
Photonics for Defence and Security: Spectroscopy Imaging and Detection (JSII_1)

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C. K. N. Patel, A. Lyakh, R. Maulini, I. Dunayevsiy, and A. Tsekoun, "QCL Based Detection of Hazardous Substances," in 2013 Conference on Lasers and Electro-Optics - International Quantum Electronics Conference, (Optica Publishing Group, 2013), paper JSII_1_1.

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Abstract

Past several years have witnessed significant advances in the performance of mid wave infrared (MWIR) and long wave infrared (LWIR) QCLs. Both output power levels and wall plug efficiencies (WPE) have improved using new designs for QCL superlattice structures (the non-resonant extraction design). Continuous wave (CW) room temperature (RT) performance has now reached a level of >4 W, with WPE of ~16%, from a fully packaged device that produces a collimated beam of laser radiation at ~4.6 µm. The NRE design has permitted similar performance improvements at other wavelengths. For example, it is now possible to obtain: 2.5 W of CW/RT power at wavelengths in the 3.8 µm-4.2 µm range and >2 W of CW/RT power in the 7.0 µm-9.5 µm range. We are confident that if needed, similar or better performance can be obtained at all wavelengths in the 5.0 µm-7.0 µm range.

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