Broadband and compact polarization rotator based on cascaded-stair waveguide with low insertion loss

IF 0.9 4区物理与天体物理 Q4 OPTICS

Optical Review Pub Date : 2025-07-18 DOI:10.1007/s10043-025-00993-w

Kelei Miao, Xiaowen Lv

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引用次数: 0

Abstract

Given that silicon-on-insulator (SOI) has a high refractive index contrast and intrinsic birefringence, photonics devices based on SOI are typically polarization-sensitive. To address this issue, a novel broadband mid-infrared polarization rotator (PR) based on cascaded stepped waveguides was put forward. It can achieve polarization conversion between the fundamental TM₀ and TE₀ modes through mode hybridization formed in asymmetric waveguides. The finite-difference time-domain (FDTD) method was employed to explore its polarization rotation characteristics and optimize the device structure. Simulation results demonstrate that at the central wavelength of 2.53 µm, the maximum polarization extinction ratio (PER) can attain 40.02 dB, the polarization conversion efficiency (PCE) exceeds 99.8%, and the insertion loss (IL) is as low as 0.12 dB. Moreover, the operating bandwidth is expanded to 490 nm (spanning from 2.28 to 2.77 µm). Meanwhile, the device length is merely 16.4 μm. Furthermore, tolerance analysis indicates that the device has good manufacturing tolerance. Owing to its high PER, large bandwidth, and small footprint, the proposed PR has significant application potential in mid-infrared photonic integrated circuits (PICs).

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基于低插入损耗级联阶梯波导的宽带紧凑型偏振旋转器

鉴于绝缘体上硅（SOI）具有高折射率对比度和固有双折射，基于SOI的光子器件通常具有偏振敏感性。针对这一问题，提出了一种基于级联阶跃波导的宽带中红外偏振旋转器。它可以通过在非对称波导中形成的模式杂化实现基模TM0和基模TE0之间的偏振转换。采用时域有限差分（FDTD）方法对其偏振旋转特性进行了研究，并对器件结构进行了优化。仿真结果表明，在中心波长为2.53µm时，最大偏振消光比（PER）可达40.02 dB，偏振转换效率（PCE）超过99.8%，插入损耗（IL）低至0.12 dB。此外，工作带宽扩展到490 nm（从2.28到2.77µm）。器件长度仅为16.4 μm。此外，公差分析表明，该装置具有良好的制造公差。由于其高PER、大带宽和小占地，在中红外光子集成电路（PICs）中具有重要的应用潜力。

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来源期刊

Optical Review 物理-光学

CiteScore

2.30

自引率

0.00%

发文量

审稿时长

2 months

期刊介绍： Optical Review is an international journal published by the Optical Society of Japan. The scope of the journal is: General and physical optics; Quantum optics and spectroscopy; Information optics; Photonics and optoelectronics; Biomedical photonics and biological optics; Lasers; Nonlinear optics; Optical systems and technologies; Optical materials and manufacturing technologies; Vision; Infrared and short wavelength optics; Cross-disciplinary areas such as environmental, energy, food, agriculture and space technologies; Other optical methods and applications.