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Double-cantilever inverted cone spot-size conversion structure for waveguide coupling

A conversion structure and double cantilever technology, applied in the direction of optical waveguide light guide, light guide, instrument, etc., can solve the problems of light wave leakage and low coupling efficiency, achieve high-efficiency coupling, improve alignment tolerance, and avoid leakage

Pending Publication Date: 2022-04-26
BEIJING UNIV OF POSTS & TELECOMM
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Problems solved by technology

[0006] Aiming at the technical problem that the alignment tolerance of the traditional inverted tapered waveguide coupler is small, and the light wave will leak from the cladding to the silicon substrate during the coupling process, resulting in low coupling efficiency, the present invention proposes an MMI (Multi-ModeInterference Multi-mode interference beam splitter) double cantilever inverted cone mode spot conversion structure, to achieve high-efficiency coupling of waveguides of different sizes under the condition of high alignment tolerance

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  • Double-cantilever inverted cone spot-size conversion structure for waveguide coupling

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[0026] The technical solutions in the embodiments of the present invention are clearly and completely described below in conjunction with the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are part of the embodiments of the present invention, but not all of them. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without making creative efforts belong to the protection scope of the present invention.

[0027] Such as Figure 1-4 As shown, the embodiment of the present invention provides a double cantilever inverted cone mode speckle conversion structure 9 for waveguide coupling, which consists of an input waveguide 1, a multimode waveguide interference region 2, two output waveguides 3 and a parabolic The inverted cone structure 4 is formed. The light wave enters the multimode waveguide interference region 2 from the input waveguide 1, and the self-image effect i...

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Abstract

The invention discloses a double-cantilever inverted-cone spot-size conversion structure for waveguide coupling, and the structure consists of an input waveguide, a multimode waveguide interference region, two output waveguides, and parabolic inverted-cone structures at the rear ends of the output waveguides. The self-mapping effect is utilized to enable input light waves to generate a plurality of images on the cross section of the output waveguide, the light waves after beam splitting are spread in the output waveguide, and the cross section of the output waveguide passing through the parabola-shaped inverted cone structure is gradually reduced, so that the light waves of several output waveguides are diffused into the cladding so as to be conveniently coupled with a large-size waveguide. Compared with a traditional single inverted-cone-shaped coupler, the double-cantilever parabola-shaped inverted-cone-shaped structure is adopted, the alignment tolerance is improved, a small mode field of light transmitted by a small-size waveguide can be converted into a large mode field so that the light can be efficiently coupled into a large-size waveguide, meanwhile, a cladding layer where the parabola-shaped inverted-cone-shaped structure is located is suspended, substrate leakage is avoided, and the coupling efficiency is improved. And the loss during optical signal transmission is reduced.

Description

technical field [0001] The invention relates to the technical field of photon integration, in particular to a double cantilever inverted cone mode spot conversion structure for waveguide coupling. Background technique [0002] With the continuous acceleration of the global informatization process, the speed of optical communication continues to accelerate, and at the same time, the integration of devices becomes higher. Various discrete devices are unified on small-sized chips and coupled with optical fibers at the transmitting end and receiving end. [0003] However, waveguides of different materials, such as silicon waveguides, silicon nitride waveguides, silicon dioxide waveguides, and single-mode optical fibers, vary greatly in size. The width of silicon material waveguides is usually several hundred nanometers, and the width of silicon nitride material waveguides is about 2um. The input and output waveguide width of the silica arrayed waveguide grating is about 4um, whi...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G02B6/12G02B6/122
CPCG02B6/12G02B6/12004G02B6/1228G02B2006/12152
Inventor 陈远祥孙尚斌付佳朱虎孙莉萍李欣国林尚静杨雷静余建国
Owner BEIJING UNIV OF POSTS & TELECOMM
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