CHARACTERIZATION OF DISTRIBUTED-FEEDBACK QUANTUM-CASCADE (QC) LASERS
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Date
1998
Journal Title
Journal ISSN
Volume Title
Publisher
Ohio State University
Abstract
Although the operating principles for the QC devices are fundamentally different than for lead-salt diode lasers, QCs provide similar operational attributes which can be used for spectroscopy applications. However, in contrast to the lead-salt diode laser, the QC lasers are extremely robust in design and operation. Results based on experiments performed at PNNL. Lucent $Technologies^{a}$ and Stevens Institute of $Technology^{b}$ will be presented, describing the lasing characteristics of QCs and their potential use in high resolution infrared spectroscopy. Depending on the mole of operation, QCs may be operated at or above room temperature by keeping the duty cycle low and pulsing them on for brief periods of time. Alternatively, these devices can be run continuously (CW) with cooling. Time averaged line widths for pulsed and continuous operation are better than 75 and 25 MHz, respectively. Suppression of side-modes is found to be better than -35 dB with CW powers of several milliWatts or greater. As with lead-salt devices, the QCs can be tuned either by temperature or current. Temperature tuning allows a much greater spectral region to be covered $(e.g., 20 cm^{-1})$, while observed current tuning is on the order of $2.5 cm^{-1}$ (500 Hz sawtooth). Several spectra will be presented and discussed, to demonstrate the applicability of the QCs to high resolution spectroscopy.
Description
$^{a}$PNNL is operated for the US Department of Energy by the Battelle Memorial Institute under contract DE-AC06-76RLO 1830. Work described in this paper has been supported by the US Department of Energy, Office of Non-Proliferation and National Security/Office of Research and Development. $^{b}$Partial support of this work was provided by DARPAJARO under contract DAAH04-96-C-0026. $^{c}$Support from the National Science Foundation under grant DMI-9313320. $^{a}$F. Capasso, J. Faist, C. Sirtori and A. Sivco, Solid State Commun. 102, 231 (1997). $^{b}$K. Namjou, S. Cai and E.A. Whittaker, Optics Letters 23, 219 (1998).
Author Institution: Pacific Northwest National Laboratory (PNNL)$^{a}$, PO Box 999; Bell Laboratories$^{b}$, Lucent Technologies; Dept. of Physics and Engineering Physics$^{c}$, Stevens Institute of Technology
Author Institution: Pacific Northwest National Laboratory (PNNL)$^{a}$, PO Box 999; Bell Laboratories$^{b}$, Lucent Technologies; Dept. of Physics and Engineering Physics$^{c}$, Stevens Institute of Technology