Valavanis, Alex, Dean, Paul, Lim, Yah Leng, Alhathlool, Raed, Nikolic, Milan, Kliese, Russell, Khanna, Suraj P., Indjin, Dragan, Wilson, Stephen J., Rakic, Aleksandar D., Linfield, Edmund H. and Davies, Giles (2013) Self-mixing interferometry with terahertz quantum cascade lasers. IEEE Sensors Journal, 13 1: 37-43.
http://espace.library.uq.edu.au/view/UQ:295646
Terahertz frequency quantum cascade lasers (THz QCLs) are compact sources of coherent THz radiation with potential applications that include astronomy, trace-gas sensing, and security imaging. However, the reliance on slow and incoherent thermal detectors has limited their practical use in THz systems. We demonstrate THz sensing using selfmixing (SM) interferometry, in which radiation is reflected from an object back into the QCL cavity, causing changes in the laser properties; the THz QCL thus acts simultaneously as both a source and detector. Well-established SM theory predicts a much weaker coupling in THz QCLs than in diode lasers, yielding a near-linear relationship between the phase of SM signals and the external cavity length. We demonstrate velocimetry of an oscillating reflector by monitoring SM-induced changes in the QCL drive voltage. We show that this yields data equivalent to that obtained by sensing the emitted THz power, thus allowing phase-sensitive THz-SM sensing without any external detector. We also demonstrate high-resolution SM-imaging at a round-trip distance of 21 m in air—the longestrange interferometric sensing with a THz QCL to date.
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