Efficient planar fiber-to-chip coupler based on two-stage adiabatic evolution | Zendy

Anatol Khilo | Zendy; Miloš A. Popović | Zendy; Mohammad Araghchini | Zendy; Franz X. Kärtner | Zendy

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Efficient planar fiber-to-chip coupler based on two-stage adiabatic evolution

Author(s) -

Anatol Khilo,

Miloš A. Popović,

Mohammad Araghchini,

Franz X. Kärtner

Publication year - 2010

Publication title -

optics express

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.394

H-Index - 271

ISSN - 1094-4087

DOI - 10.1364/oe.18.015790

Subject(s) - optics , planar , adiabatic process , waveguide , materials science , refractive index , fiber , inverse , optical fiber , graded index fiber , physics , fiber optic sensor , mathematics , geometry , computer graphics (images) , computer science , composite material , thermodynamics

A new, efficient adiabatic in-plane fiber-to-chip coupler design is proposed. In this design, the light from the fiber is coupled into a low-index waveguide with matching mode size. The mode is first adiabatically reduced in size with a rib taper, and then transferred into a high-index (e.g. silicon) waveguide with an inverse taper. The two-stage design allows to reduce the coupler length multiple times in comparison with pure inverse taper-based couplers of similar efficiency. The magnitude of length reduction increases with the refractive index of the low-index waveguide and the fiber mode size.

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