论文信息 - A new spot-size converter concept using fiber-matched antiresonant reflecting optical waveguides

A new spot-size converter concept using fiber-matched antiresonant reflecting optical waveguides

We report on a new concept for InGaAsP-InP 1.55-/spl mu/m lasers with integrated spot-size converters (SSCs) based on antiresonant reflecting optical waveguides (ARROW). The mode expanders consist of a laterally tapered active region on top of a fiber-matched passive slab waveguide. The large slab mode is laterally confined by an antiresonant configuration of a couple of lateral waveguides defined in the same fabrication process as the active ridge. This feature makes the presented spot-size transformer as simple to fabricate as a standard waveguide, only requiring a planar growth step and a single conventional etch process. The fabricated tapers exhibit a low transformation loss and reduce the coupling loss to standard single-mode fibers from 8 to 4 dB. We also analyze by simulation two variants of the concept proposed in this work, including a taper structure for a buried waveguide, which are expected to show better performance. Simulation results show fiber-coupling efficiencies as low as 2.4 and 1.1 dB for both variants.

[1] G. Hadley. Two-dimensional coupled-mode theory for modeling leaky-mode arrays. , 1990, Optics letters.

[2] A. Sudbø,et al. Numerically stable formulation of the transverse resonance method for vector mode-field calculations in dielectric waveguides , 1993, IEEE Photonics Technology Letters.

[3] D Botez,et al. Single-cladding antiresonant reflecting optical waveguide-type diode laser. , 1995, Optics letters.

[4] Vijay Vusirikala,et al. 1.55-/spl mu/m InGaAsP-InP laser arrays with integrated-mode expanders fabricated using a single epitaxial growth , 1997 .

[5] J. M. Kubica. Numerical analysis of InP/InGaAsP ARROW waveguides using transfer matrix approach , 1992 .

[6] Roel Baets,et al. Modelling of InGaAsP-InP 1.55 mm lasers with integrated mode expanders using fibrematched antiresonant reflecting optical waveguides. , 2001 .

[7] Ingrid Moerman,et al. A review on fabrication technologies for the monolithic integration of tapers with III-V semiconductor devices , 1997 .

[8] R. Baets,et al. Modeling of InGaAsP–InP 1.55 μm lasers with integrated mode expanders using fiber-matched leaky waveguides , 2001 .