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Pages- Terahertz Imaging & Detection
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Thursday, August 24, 2017
Abstract-Development of Terahertz Frequency Quantum Cascade Lasers for the Applications as Local Oscillators
Y. J. Han, L. H. Li, A. Valavanis, N. Brewster, J. X. Zhu, R. Dong, P. Dean, L. Bushnell, M. Oldfield, A. G. Davies, B. Ellison, Edmund Linfield
https://link.springer.com/chapter/10.1007/978-94-024-1093-8_15
We report the development of terahertz frequency quantum cascade lasers for applications as local oscillators. A range of active region designs and waveguide structures have been characterised in order to develop the devices for operation at high temperatures, with high output power and low dissipated power. Quantum cascade lasers based on a LO-phonon bound-to-continuum design emitting at 3.5 THz, suitable for the detection of hydroxyl, were fabricated with a double-metal (gold-gold) waveguide structure. These devices operated in continuous-wave up to 94 K, with an output power of 0.4 mW and dissipated power of 1.7 W at 10 K. A new, mechanically robust packaging and waveguide-integration scheme is also presented for operation outside laboratory environments, which further allows integration of quantum cascade lasers with terahertz waveguides, mixers and other system components. This integration scheme yielded a better beam quality, with a divergence of <20°, compared to standard double-metal devices. Its impacts on the device performance, such as operating temperature range, spectral emission, output power and electrical properties, are presented.
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