论文信息 - Quantum cascade lasers with low-loss chalcogenide lateral waveguides

Quantum cascade lasers with low-loss chalcogenide lateral waveguides

Quantum cascade lasers have been fabricated with chalcogenide lateral waveguide claddings. Several-micrometer thick Ge/sub 0.25/Se/sub 0.75/ glass has been deposited by pulsed laser ablation onto the sidewalls of narrow, deep etched laser ridges. Due to the intrinsically low mid-infrared attenuation of the chalcogenide material, the waveguide loss of the lasers is significantly reduced, by up to /spl sim/50%, depending on the ridge width, when compared to conventional ridge waveguides. This resulted in an improved overall laser performance, such as a reduction of the threshold current density, an increase in slope efficiency, and an improved temperature performance.

[1] J. Faist,et al. Quantum Cascade Laser , 1994, Science.

[2] Valentina F. Kokorina,et al. Glasses for Infrared Optics , 1996 .

[3] M. Beck,et al. A quantum cascade laser based on an n-i-p-i superlattice , 2000, IEEE Photonics Technology Letters.

[4] Federico Capasso,et al. QUANTUM CASCADE LASERS , 1999 .

[5] A. Tredicucci,et al. Improved CW operation of quantum cascade lasers with epitaxial-side heat-sinking , 1999, IEEE Photonics Technology Letters.

[6] F. Capasso,et al. Quantum Cascade Lasers , 2002 .

[7] Mattias Beck,et al. Buried heterostructure quantum cascade lasers , 1998, Photonics West.

[8] F. Capasso,et al. Monolithic active mode locking of quantum cascade lasers , 2000 .

[9] G. Hubler,et al. Pulsed Laser Deposition of Thin Films , 2003, Handbook of Laser Technology and Applications.

[10] Federico Capasso,et al. High-power λ≈8 μm quantum cascade lasers with near optimum performance , 1998 .

[11] B. Hakki,et al. Gain spectra in GaAs double−heterostructure injection lasers , 1975 .

[12] Federico Capasso,et al. Dependence of the device performance on the number of stages in quantum-cascade lasers , 1999 .