Feasibility Study of Optical Parametric Amplification Using CMOS Compatible Ring Resonators

机译：使用兼容CMOS的环形谐振器进行光参量放大的可行性研究

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In this paper, we analytically describe the parametric amplification in ring resonators using silicon and silicon nitride waveguides. Achievable gain and bandwidth of the ring-based amplifiers are studied taking into account the Kerr nonlinearity for silicon nitride and Kerr nonlinearity as well as two photon absorption and free carrier absorption for silicon waveguides. Both telecom and 2-um wavelengths are investigated in case of silicon. An approach for obtaining the optimum amplifier design without initiating the comb generation has been introduced. It is shown that there is a trade-off between the input pump and amplifier bandwidth. It is estimated that using optimum designs an amplifier with a gain and bandwidth of 10 dB and 10 GHz could be feasible with silicon ring resonators in 2 um.

机译：在本文中，我们分析性地描述了使用硅和氮化硅波导的环形谐振器中的参数放大。考虑到氮化硅的Kerr非线性和Kerr非线性以及硅波导的两个光子吸收和自由载流子吸收，研究了环形放大器的可获得的增益和带宽。对于硅，将同时研究电信波长和2um波长。已经介绍了一种在不启动梳齿产生的情况下获得最佳放大器设计的方法。结果表明，在输入泵浦和放大器带宽之间需要权衡。据估计，使用最佳设计的放大器和增益为10 dB，带宽为10 GHz的带宽在2 um的硅环形谐振器中是可行的。

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来源
《Integrated optics: devices, materials, and technologies XXI》|2017年|101060A.1-101060A.9|共9页
会议地点 San Francisco(US)
作者
Mahmoud Jazayerifar; Meysam Namdari; Ryan Hamerly; Dodd Gray; Christopher Rogers; Kambiz Jamshidi;
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作者单位

Integrated Photonic Devices Group, Technische Universitat Dresden, Helmholtzstraβe 16, 01069, Dresden, Germany;

Integrated Photonic Devices Group, Technische Universitat Dresden, Helmholtzstraβe 16, 01069, Dresden, Germany;

Edward L. Ginzton Laboratory, Stanford University, Stanford, CA 94305, USA,National Institute of Informatics, Hitotsubashi 2-1-2, Chiyoda-ku, Tokyo 101-8402, Japan;

Edward L. Ginzton Laboratory, Stanford University, Stanford, CA 94305, USA;

Edward L. Ginzton Laboratory, Stanford University, Stanford, CA 94305, USA;

Integrated Photonic Devices Group, Technische Universitat Dresden, Helmholtzstraβe 16, 01069, Dresden, Germany;

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原文格式 PDF
正文语种 eng
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关键词
Optical parametric amplification; Kerr nonlinearity; Ring resonators;

机译：光学参量放大； Kerr非线性；环形谐振器;

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专利

1. Single-Chip Ring Resonator-Based 1 $times$ 8 Optical Beam Forming Network in CMOS-Compatible Waveguide Technology [J] . Zhuang L., Roeloffzen C. G. H., Heideman R. G., IEEE Photonics Technology Letters . 2007,第15期

机译：基于单芯片环形谐振器的1 x 8光束形成网络，采用CMOS兼容波导技术
2. On-chip parametric amplification with 26.5 dB gain at telecommunication wavelengths using CMOS-compatible hydrogenated amorphous silicon waveguides [J] . Bart Kuyken, Stephane Clemmen, Shankar Kumar Selvaraja, Optics Letters . 2011,第4期

机译：使用兼容CMOS的氢化非晶硅波导在电信波长处以26.5 dB的增益进行片内参数放大
3. Novel CMOS-Compatible Athermal and Polarization-Insensitive Ring Resonator as Photonic Notch Filter [J] . Francesco DellOlio, Donato Conteduca, Giuseppe Brunetti, Photonics Journal, IEEE . 2018,第6期

机译：新型兼容CMOS的无热和偏振不敏感的环形谐振器作为光子陷波器
4. Feasibility Study of Optical Parametric Amplification Using CMOS Compatible Ring Resonators [C] . Mahmoud Jazayerifar, Meysam Namdari, Ryan Hamerly, Conference on integrated optics: devices, materials, and technologies XXI . 2017

机译：CMOS兼容环谐振器的光学参数放大的可行性研究
5. Development in CMOS-Compatible Materials for On-Chip Nonlinear Optical Devices [D] . Lin, Hunghsi. 2018

机译：开发CMOS兼容材料的片上非线性光学器件
6. Ultracompact CMOS-compatible optical logic using carrier depletion in microdisk resonators [O] . Dusan Gostimirovic, Winnie N. Ye -1

机译：使用微盘谐振器中的载流子耗尽的超紧凑型CMOS兼容光学逻辑
7. Feasibility study of optical parametric amplification using CMOS compatible ring resonators [O] . Mahmoud Jazayerifar, Meysam Namdari, Ryan Hamerly, 2017

机译：CMOS兼容环谐振器的光学参数放大的可行性研究

Feasibility Study of Optical Parametric Amplification Using CMOS Compatible Ring Resonators

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