Co-planar arbitrary ratio optical power splitter based on cascaded hybrid-core vertical directional couplers for arbitrary guide modes

Co-planar arbitrary ratio optical power splitter based on cascaded hybrid-core vertical directional couplers for arbitrary guide modes

•We propose a co-planar optical power splitter based on cascaded hybrid-core vertical directional couplers, which serves to split arbitrary ratio power of arbitrary guide modes.•We fabricate the optical power splitter using micro-fabrication facilities.•Our fabricated chip demonstrates power splitti...

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Bibliographic Details
Published in:Optics and laser technology Vol. 174; p. 110590
Main Authors: Huang, Quandong, Zhang, Jiali, Peng, Kedi, Ran, Jiaqi, Zheng, Zhaoqiang, Qiu, Zhanxiong, Zhang, Qiyang, Chen, Meifei, Chen, Qingming, Zhou, Xinyu, Xu, Ou
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-07-2024
Subjects:
Integrated photonic device
Mode multiplexer
Optical power splitter
Optical waveguide
Optical power splitter
Optical waveguide
Mode multiplexer
Integrated photonic device
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Summary:•We propose a co-planar optical power splitter based on cascaded hybrid-core vertical directional couplers, which serves to split arbitrary ratio power of arbitrary guide modes.•We fabricate the optical power splitter using micro-fabrication facilities.•Our fabricated chip demonstrates power splitting for the E11, E21 and E12 modes between two few-mode waveguides.•The experimental device shows that optical power splitting ranges can be larger than 11.0 dB, 12.1 dB and 11.3 dB for the E11, E21 and E12 modes, respectively, over the C + L band and beyond.•The proposed optical power splitter could be used in the mode division-multiplexing systems where power splitting for arbitrary guide modes in few-mode waveguide is required in the ultra-broadband wavelength range for mode manipulating, such as mode power distribution, mode dependent loss equalization and all-optical MIMO signal processes. We propose a co-planar optical power splitter based on cascaded hybrid-core vertical directional couplers, which serves to split arbitrary ratio power of arbitrary guide modes. We fabricate the optical power splitter using micro-fabrication facilities. Our fabricated chip demonstrates power splitting for the E11, E21 and E12 modes between two few-mode waveguides. The experimental device shows that optical power splitting ranges can be larger than 11.0 dB, 12.1 dB and 11.3 dB for the E11, E21 and E12 modes, respectively, over the C + L band and beyond. The proposed optical power splitter could be used in the mode division-multiplexing systems where power splitting for arbitrary guide modes in few-mode waveguide is required in the ultra-broadband wavelength range for mode manipulating, such as mode power distribution, mode dependent loss equalization and all-optical MIMO signal processes.
ISSN:0030-3992
1879-2545
DOI:10.1016/j.optlastec.2024.110590