T-Branch Waveguide Mirror for Multimode Optical Splitter With Arbitrary Power Ratios
Mode-division multiplexing is an enabling technique for large-capacity on-chip optical interconnects. Multimode power splitter becomes the subject of interests which is highly desirable. However, challenges still exist for multimode splitter with arbitrary power ratio. Inspired by geometric optics,...
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| Published in | IEEE journal of quantum electronics Vol. 57; no. 5; pp. 1 - 6 |
|---|---|
| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
New York
IEEE
01.10.2021
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0018-9197 1558-1713 |
| DOI | 10.1109/JQE.2021.3104851 |
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| Abstract | Mode-division multiplexing is an enabling technique for large-capacity on-chip optical interconnects. Multimode power splitter becomes the subject of interests which is highly desirable. However, challenges still exist for multimode splitter with arbitrary power ratio. Inspired by geometric optics, we demonstrate a series of power splitters based on T-branch waveguide mirrors which consist of subwavelength nanoholes. Arbitrary split ratio can be achieved by modifying the transmittance and reflectance of the waveguide mirrors. The devices can support up to 9 modes from TE 0 -TE 8 . For a proof-of-concept demonstration, we fabricate dual-mode splitters with power ratios of 40:60, 30:70 and 20:80. For both TE 0 and TE 1 modes, the measured excess losses are lower than 0.92 dB, and the crosstalk are all below -14.42 dB within the wavelength range from 1540 to 1580 nm. |
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| AbstractList | Mode-division multiplexing is an enabling technique for large-capacity on-chip optical interconnects. Multimode power splitter becomes the subject of interests which is highly desirable. However, challenges still exist for multimode splitter with arbitrary power ratio. Inspired by geometric optics, we demonstrate a series of power splitters based on T-branch waveguide mirrors which consist of subwavelength nanoholes. Arbitrary split ratio can be achieved by modifying the transmittance and reflectance of the waveguide mirrors. The devices can support up to 9 modes from TE 0 -TE 8 . For a proof-of-concept demonstration, we fabricate dual-mode splitters with power ratios of 40:60, 30:70 and 20:80. For both TE 0 and TE 1 modes, the measured excess losses are lower than 0.92 dB, and the crosstalk are all below -14.42 dB within the wavelength range from 1540 to 1580 nm. Mode-division multiplexing is an enabling technique for large-capacity on-chip optical interconnects. Multimode power splitter becomes the subject of interests which is highly desirable. However, challenges still exist for multimode splitter with arbitrary power ratio. Inspired by geometric optics, we demonstrate a series of power splitters based on T-branch waveguide mirrors which consist of subwavelength nanoholes. Arbitrary split ratio can be achieved by modifying the transmittance and reflectance of the waveguide mirrors. The devices can support up to 9 modes from TE0-TE8. For a proof-of-concept demonstration, we fabricate dual-mode splitters with power ratios of 40:60, 30:70 and 20:80. For both TE0 and TE1 modes, the measured excess losses are lower than 0.92 dB, and the crosstalk are all below –14.42 dB within the wavelength range from 1540 to 1580 nm. |
| Author | Xu, Ke Liu, Yingjie Liu, Yilin Song, Qinghai Zhong, Zhongqiu Wang, Shuai Jin, Hongzhi |
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| SubjectTerms | Crosstalk Geometrical optics Integrated optics Mirrors multimode Multiplexing Optical interconnects Optical reflection Optical waveguides Power splitters Reflection Reflectivity Refractive index splitters System-on-chip Waveguides |
| Title | T-Branch Waveguide Mirror for Multimode Optical Splitter With Arbitrary Power Ratios |
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