Bloch supermode interaction for high-performance polarization beam splitting

Xie, Yiyang; Chen, Zhenxing; Wu, Yiheng; Zhao, Yangcheng; Huang, Tianye; Cheng, Zhuo

doi:10.1117/1.oe.58.9.095102

Opt. Eng.

2019

DOI: 10.1117/1.oe.58.9.095102

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Bloch supermode interaction for high-performance polarization beam splitting

Yiyang Xie

Zhenxing Chen

Yiheng Wu

et al.

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2021

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Subwavelength silicon photonics for on-chip mode-manipulation

Zhang

et al. 2021

PhotoniX

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On-chip mode-manipulation is one of the most important physical fundamentals for many photonic integrated devices and circuits. In the past years, great progresses have been achieved on subwavelength silicon photonics for on-chip mode-manipulation by introducing special subwavelength photonic waveguides. Among them, there are two popular waveguide structures available. One is silicon hybrid plasmonic waveguides (HPWGs) and the other one is silicon subwavelength-structured waveguides (SSWGs). In this paper, we focus on subwavelength silicon photonic devices and the applications with the manipulation of the effective indices, the modal field profiles, the mode dispersion, as well as the birefringence. First, a review is given about subwavelength silicon photonics for the fundamental-mode manipulation, including high-performance polarization-handling devices, efficient mode converters for chip-fiber edge-coupling, and ultra-broadband power splitters. Second, a review is given about subwavelength silicon photonics for the higher-order-mode manipulation, including multimode converters, multimode waveguide bends, and multimode waveguide crossing. Finally, some emerging applications of subwavelength silicon photonics for on-chip mode-manipulation are discussed.

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Subwavelength silicon photonics for on-chip mode-manipulation

Zhang

et al. 2021

PhotoniX

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show abstract

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Bloch supermode interaction for high-performance polarization beam splitting

Cited by 1 publication

References 29 publications

Subwavelength silicon photonics for on-chip mode-manipulation

Subwavelength silicon photonics for on-chip mode-manipulation

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