Monolithic integration of optical mode-size converter and high-speed electroabsorption modulators using laterally undercut waveguide

Tsu-Hsiu Wu; Fang-Zheng Lin; Hung-Jung Yan; Jui-Pin Wu; Yi-Jen Chiu

doi:10.1117/12.842202

11 February 2010 Monolithic integration of optical mode-size converter and high-speed electroabsorption modulators using laterally undercut waveguide

Tsu-Hsiu Wu, Fang-Zheng Lin, Hung-Jung Yan, Jui-Pin Wu, Yi-Jen Chiu

Author Affiliations +

Proceedings Volume 7604, Integrated Optics: Devices, Materials, and Technologies XIV; 76040K (2010) https://doi.org/10.1117/12.842202
Event: SPIE OPTO, 2010, San Francisco, California, United States

Abstract

A new monolithic integration scheme of fabricating optical spot-size converter (SSC) is realized in this work. High-speed electroabsorption modulator (EAM) is used to integrate such SSC. By laterally tapering the active region of an optical waveguide through undercut active region, a vertically asymmetric waveguide coupler can be defined to form an SSC, where the top is a tapered active waveguide, and the bottom is a large core of passive waveguide mode-matched to single-mode fiber (SMF). Through the top tapered active waveguide, the effective index can be gradually varied in the propagation direction, momentarily matching the bottom low-index passive waveguide. It not only performs the resonant coupling in such asymmetric waveguide coupler, but also locks the transferred power by the tapered structure. InGaAsP/InP multiple quantum wells are used as active region of active waveguide. Based on the highly selective etching properties between InGaAsP and InP, the tapered active waveguide can be fabricated by a method, called selectively undercut-etching-active-region (UEAR), enabling the processing a narrow waveguide structure (up to submicron) by general wet etching from a large waveguide ridge. It also leads to good microwave performance of waveguide. By taking this advantage, a SSC-integrated EAM can perform high-speed electrical-to-optical (EO) response as well as low-insertion loss properties. A mode transfer efficiency of 70% is obtained in such SSC. By narrowing waveguide by UEAR, over 40 GHz of -3dB electrical-to-optical (EO) response is obtained from this device. The high efficient SSC integrated with high-speed EAM suggests that the UEAR technique can have potential for applications in high-speed optoelectronic fields.

Citation Download Citation

Tsu-Hsiu Wu, Fang-Zheng Lin, Hung-Jung Yan, Jui-Pin Wu, and Yi-Jen Chiu "Monolithic integration of optical mode-size converter and high-speed electroabsorption modulators using laterally undercut waveguide", Proc. SPIE 7604, Integrated Optics: Devices, Materials, and Technologies XIV, 76040K (11 February 2010); https://doi.org/10.1117/12.842202

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