Scaling of Raman amplification in realistic slow-light photonic crystal waveguides

Isabella H. Rey; Yannick Lefevre; Sebastian A. Schulz; Nathalie Vermeulen; Thomas F. Krauss

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Scaling of Raman amplification in realistic slow-light photonic crystal waveguides

机译：在现实的慢光光子晶体波导中拉曼放大的比例

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The prospect for low pump-power Raman amplification in silicon waveguides has recently been boosted by theoretical studies discussing the enhancement of nonlinear phenomena in slow-light structures. In principle, the slowing down of either the pump or the signal beam is equivalent in terms of Raman gain, but in the presence of losses, we show that they play different roles in determining the net signal gain. We also investigate the impact of the mode profile in realistic slow-light waveguides on the total gain, an effect that is usually neglected in the context of stimulated Raman scattering. By taking representative losses and mode shapes into account, we provide a realistic estimation of the achievable performance of slow-light photonic crystal waveguides.

机译：讨论慢光结构中非线性现象的增强的理论研究最近推动了硅波导中低泵浦功率拉曼放大的前景。原则上，就拉曼增益而言，泵浦或信号束的减慢是等效的，但是在存在损耗的情况下，我们证明了它们在确定净信号增益方面起着不同的作用。我们还研究了现实的慢光波导中的模式分布对总增益的影响，这种影响通常在受激拉曼散射的情况下被忽略。通过考虑代表性的损耗和模式形状，我们提供了慢光光子晶体波导可达到的性能的现实估计。

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来源
《Physical review》 |2011年第3期|p.035306.1-035306.6|共6页
作者
Isabella H. Rey; Yannick Lefevre; Sebastian A. Schulz; Nathalie Vermeulen; Thomas F. Krauss;
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作者单位

School of Physics and Astronomy, University of St Andrews, St Andrews, Fife KYI 6 9SS, United Kingdom;

Brussels Photonics Team (B-PHOT), Department of Applied Physics and Photonics, Vrije Universiteit Brussel, B-1050 Brussels, Belgium;

School of Physics and Astronomy, University of St Andrews, St Andrews, Fife KYI 6 9SS, United Kingdom;

Brussels Photonics Team (B-PHOT), Department of Applied Physics and Photonics, Vrije Universiteit Brussel, B-1050 Brussels, Belgium;

School of Physics and Astronomy, University of St Andrews, St Andrews, Fife KYI 6 9SS, United Kingdom;

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stimulated raman scattering; cars; photonic bandgap materials; waveguides, couplers, and arrays;

机译：拉曼散射汽车;光子带隙材料;波导;耦合器和阵列;

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1. Design of Silicon Photonic Crystal Waveguides for High Gain Raman Amplification Using Two Symmetric Transvers-Electric-Like Slow-Light Modes [J] . Yi-Hua Hsiao, Satoshi Iwamoto, Yasuhiko Arakawa Japanese journal of applied physics . 2013,第4Issue2期

机译：两种对称的横向电子式慢光模式用于高增益拉曼放大的硅光子晶体波导的设计
2. Enhanced Raman Scattering in Slow-Light Photonic Crystals for Chip-Scale Frequency Conversion and Optical Amplification [J] . J. F. McMillan, M. Yu, D.-L. Kwong, Journal of nanoscience and nanotechnology . 2010,第3期

机译：慢光光子晶体中增强的拉曼散射，用于芯片级频率转换和光放大
3. Observation Of Spontaneous Raman Scattering In Silicon Slow-light Photonic Crystal Waveguides [J] . J. F. McMillan, Mingbin Yu, Dim-Lee Kwong, Applied Physicsletters . 2008,第25期

机译：硅慢光光子晶体波导中自发拉曼散射的观察
4. Narrowband optical parametric amplification in slow-light engineered GaInP photonic crystal waveguide [C] . Roy S., Santaguistina M., Eisenstein G., International Conference on Fiber Optics and Photonics . 2012

机译：慢光工程化的GaInP光子晶体波导中的窄带光学参量放大
5. Theoretical and computational studies of disorder-induced scattering and nonlinear optical interactions in slow-light photonic crystal waveguides [D] . Mann, Nishan Singh 2017

机译：慢光光子晶体波导中无序引起的散射和非线性光学相互作用的理论和计算研究
6. Slow-light Mach–Zehnder modulators based on Si photonic crystals [O] . Toshihiko Baba, Hong C Nguyen, Naoya Yazawa, 2014

机译：基于硅光子晶体的慢光马赫曾德尔调制器
7. Scaling of Raman amplification in realistic slow-light photonic crystal waveguides [O] . Rey, Isabella Helen, Lefevre, Yannick, Schulz, Sebastian Andreas, 2011

机译：在现实的慢光光子晶体波导中拉曼放大的比例

Scaling of Raman amplification in realistic slow-light photonic crystal waveguides

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