论文信息 - Small optical volume terahertz emitting microdisk quantum cascade lasers

Small optical volume terahertz emitting microdisk quantum cascade lasers

The authors fabricate and characterize a series of quantum cascade laser micropillars emitting at ≈3.5THz. The optical confinement by double plasmon guiding in the vertical direction creates a large impedance mismatch between the confined optical modes and free space. Thus, unlike standard dielectric structures, large quality (Q) factors are maintained for small radius to wavelength ratios. The narrow bandwidth of the optical mode results in low threshold current (8mA) single-mode lasers. Cavity pulling enables a fine dynamic tuning of the emission wavelength. Comparison of the frequency shift due to cavity pulling and the Stark effect provides an experimental measure of the gain (36cm−1).

[1] Carlo Sirtori,et al. Resonant tunneling in quantum cascade lasers , 1998 .

[2] T. J. Kippenberg,et al. Ultra-high-Q toroid microcavity on a chip , 2003, Nature.

[3] Claire F. Gmachl,et al. Long-wavelength (9.5-11.5 /spl mu/m) microdisk quantum-cascade lasers , 1997 .

[4] Carlo Sirtori,et al. Quantum cascade disk lasers , 1996 .

[5] A. F. J. Levi,et al. Whispering-gallery mode microdisk lasers , 1992 .

[6] Marcella Giovannini,et al. Design, fabrication and optical characterization of quantum cascade lasers at terahertz frequencies using photonic crystal reflectors. , 2005, Optics express.

[7] G. Strasser,et al. Terahertz microcavity quantum-cascade lasers , 2005 .