Zhiwei Guan, Keyin Wen, Chuangxin Xie, Ruixue Dou, Tianyimei Zuo, Junmin Liu, Huapeng Ye, Chaofeng Wang, Ze Dong, Dianyuan Fan, Shuqing Chen
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However, a significant challenge arises from the mismatch in the effective refractive index between orthogonal linear polarizations, which introduces complexities to polarization channel multiplexing and impedes progress in on-chip multidimensional multiplexing that integrates both wavelength and polarization channels. In this work, we propose a double-layer adiabatic structure-connected micro-ring resonator (AMRR) with vertical refractive index asymmetry, demonstrating its utility in multidimensional (de)multiplexers. Our approach enables polarization division multiplexing (PDM) by facilitating polarization rotation between transverse electric and transverse magnetic polarizations through polarization hybridization. The (de)multiplexing of both wavelength and polarization channels is achieved by controlling the incident light direction and filtering the resonance wavelength within the micro-ring resonator. 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引用次数: 0
摘要
片上多维多路复用在集成光系统中增强传输容量和发展通信网络方面显示出巨大的潜力。微环谐振器利用波长相关的窃窃廊共振机制,并具有可定制的腔长,为精确的波长滤波提供了固有的优势。这些特性使它们成为波长复用器的有希望的候选者。然而,一个重要的挑战来自于正交线性极化之间的有效折射率不匹配,这给极化通道复用带来了复杂性,并阻碍了集成波长和极化通道的片上多维复用的进展。在这项工作中,我们提出了一种垂直折射率不对称的双层绝热结构连接微环谐振器(AMRR),证明了它在多维(de)多路复用器中的实用性。我们的方法通过极化杂交促进横向电极化和横向磁极化之间的极化旋转,从而实现极化分复用(PDM)。通过控制入射光方向和过滤微环谐振腔内的谐振波长,实现波长通道和极化通道的(解)复用。作为概念验证,我们成功地传输了144 Gbit/s的QPSK-OFDM信号,并使用所提出的多维(去)多路复用器在- 19 dBm处实现了低于前向纠错阈值的误码率,该多路复用器可容纳3个波长和2个偏振。我们的设计利用AMRR实现波长和极化通道的同时(解)复用,不仅克服了传统微环谐振器在实现PDM时的限制,而且还将多维(解)复用器的占地面积减少到27 μ m × 219 μ m,比传统设计小了一个数量级。
On-chip multidimensional multiplexing has shown considerable potential for enhancing transmission capacity and developing communication networks in integrated optical systems. Micro-ring resonators, which utilize the wavelength-dependent whispering gallery resonance mechanism and feature customizable cavity lengths, offer inherent advantages for accurate wavelength filtering. These characteristics make them promising candidates for wavelength multiplexers. However, a significant challenge arises from the mismatch in the effective refractive index between orthogonal linear polarizations, which introduces complexities to polarization channel multiplexing and impedes progress in on-chip multidimensional multiplexing that integrates both wavelength and polarization channels. In this work, we propose a double-layer adiabatic structure-connected micro-ring resonator (AMRR) with vertical refractive index asymmetry, demonstrating its utility in multidimensional (de)multiplexers. Our approach enables polarization division multiplexing (PDM) by facilitating polarization rotation between transverse electric and transverse magnetic polarizations through polarization hybridization. The (de)multiplexing of both wavelength and polarization channels is achieved by controlling the incident light direction and filtering the resonance wavelength within the micro-ring resonator. As a proof of concept, we successfully transmitted 144 Gbit/s QPSK-OFDM signals and achieved bit error rates below the forward error correction threshold at −19 dBm using the proposed multidimensional (de)multiplexer, which accommodates 3 wavelengths and 2 polarizations. Our design, which leverages the AMRR for simultaneous (de)multiplexing of wavelength and polarization channels, not only overcomes the limitation of traditional micro-ring resonators in implementing PDM, but also reduces the footprint of the multidimensional (de)multiplexer to 27 µm × 219 µm, an order of magnitude smaller compared to conventional designs.
期刊介绍:
Science China Physics, Mechanics & Astronomy, an academic journal cosponsored by the Chinese Academy of Sciences and the National Natural Science Foundation of China, and published by Science China Press, is committed to publishing high-quality, original results in both basic and applied research.
Science China Physics, Mechanics & Astronomy, is published in both print and electronic forms. It is indexed by Science Citation Index.
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