Breaking efficiency-bandwidth limits of integrated silicon modulator using rib waveguide slab region doping design

IF 2 4区 物理与天体物理 Q3 OPTICS Journal of Optics Pub Date : 2024-09-06 DOI:10.1088/2040-8986/ad7519
Yifei Chen, Mingxin Liu, Hongsheng Niu, Chen Guo, Shangqing Shi, Wei Cheng, Jin Wang, Qichao Wang, Wanghua Zhu, Guohua Hu, Binfeng Yun
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Abstract

Doping optimization in the slab waveguide region of a silicon photonic (SiP) modulator has always been considered to balance the optical loss and electrical resistance–capacitance constant. We found that the AC PN junction capacitance could be significantly decreased by specific doping concentrations in the slab areas. Benefiting from this effect, microwave losses are reduced and the electro-optic (EO) bandwidth is increased. As a proof-of-concept, we propose a silicon modulator based on a conventional lateral PN junction with optimized doping in the waveguide slab region. The simulation results show that a 3 dB-EO bandwidth exceeds 100 GHz can be achieved with a modulation length of 2 mm. In addition, the modulation efficiencies are 1.26 V·cm and 1.45 V·cm under −4 V bias and −6 V bias, respectively. This design shows the potential of high-speed signal transmission in SiPs.
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利用肋状波导片区掺杂设计打破集成硅调制器的效率-带宽限制
硅光子(SiP)调制器板坯波导区域的掺杂优化一直被认为是平衡光损耗和电阻电容常数的关键。我们发现,板坯区域的特定掺杂浓度可显著降低交流 PN 结电容。得益于这种效应,微波损耗得以降低,电光(EO)带宽得以增加。作为概念验证,我们提出了一种基于传统横向 PN 结的硅调制器,并对波导板区域进行了优化掺杂。仿真结果表明,在调制长度为 2 毫米的情况下,可实现超过 100 GHz 的 3 dB-EO 带宽。此外,在 -4 V 和 -6 V 偏置下,调制效率分别为 1.26 V 厘米和 1.45 V 厘米。这一设计显示了 SiPs 高速信号传输的潜力。
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来源期刊
CiteScore
4.50
自引率
4.80%
发文量
237
审稿时长
1.9 months
期刊介绍: Journal of Optics publishes new experimental and theoretical research across all areas of pure and applied optics, both modern and classical. Research areas are categorised as: Nanophotonics and plasmonics Metamaterials and structured photonic materials Quantum photonics Biophotonics Light-matter interactions Nonlinear and ultrafast optics Propagation, diffraction and scattering Optical communication Integrated optics Photovoltaics and energy harvesting We discourage incremental advances, purely numerical simulations without any validation, or research without a strong optics advance, e.g. computer algorithms applied to optical and imaging processes, equipment designs or material fabrication.
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