Magnetic field effects in terahertz quantum-cascade lasers

Tamosiunas, V.; Zobl, R.; Fasching, G.; Ulrich, J.; Strasser, G.; Unterrainer, K.; Colombelli, R.; Gmachl, C.; West, K.; Pfeiffer, L.; Capasso, F.

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Author

Tamosiunas, V.

Zobl, R.

Fasching, G.

Ulrich, J.

Strasser, G.

Unterrainer, K.

Colombelli, R.

Gmachl, C.

West, K.

Pfeiffer, L.

Capasso, F.

Published Version

https://doi.org/10.1088/0268-1242/19/4/115

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Citation

Tamosiunas, V, R Zobl, G Fasching, J Ulrich, G Strasser, K Unterrainer, R Colombelli, et al. 2004. “Magnetic Field Effects in Terahertz Quantum-Cascade Lasers.” Semiconductor Science and Technology 19 (4): S348–50. https://doi.org/10.1088/0268-1242/19/4/115.

Abstract

We have measured the emission intensity and spectra of terahertz quantum-cascade lasers in an external magnetic field applied normal to the epilayers. We have observed a reduction of the threshold current, an enhancement of laser emission intensity and shifts of the emission line. A wider operating range was predicted for the selected waveguide design according to our finite-difference time-domain simulation results. The intensity enhancement and the threshold current reduction are attributed to the suppression of nonradiative Auger-intersubband transitions by Landau quantization of the in-plane electron motion, to the modulation of the injection rate via resonant inter-Landau-level transfer, and to the modulation of waveguide properties.

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http://nrs.harvard.edu/urn-3:HUL.InstRepos:41371287

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