测量高色散和损耗下的非线性

Oceans Pub Date : 2023-06-26 DOI:10.1109/CLEO/Europe-EQEC57999.2023.10232283

David Castolló-Lurbe, C. Cuadrado-Laborde, Enrique Silvestre, A. Díez, M. V. Andrés

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引用次数: 0

摘要

与将损耗视为非线性光子学应用的限制因素的传统观点相反，明智的损耗管理目前在非线性光学的不同研究领域发挥着至关重要的作用，从等离子体和$\mathcal{PT}$对称系统到二维材料波导中的脉冲传播[1]或色散非线性[2]。由于这种物理依赖于非线性、色散(或衍射)和损耗(或增益)效应之间的相互作用，非线性系数$\gamma$的精确测量不能忽略色散$\beta_{2}$或线性损耗$\alpha$，而最先进的技术需要无色散[3]或无损波导[4]。此外，这样的测量将有助于正在进行的理论研究，以区分基于不同假设的竞争非线性模型[5]。在这里，我们演示了在色散和损耗与非线性效应相当的条件下测量$\beta_{2}/\gamma$和$\gamma$(如果$\beta_{2}$可用)的过程。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Measuring Nonlinearities Under High Dispersion and Loss

Contrary to traditional views considering loss a limiting factor for nonlinear photonics applications, a judicious loss management is currently playing a crucial role in different research areas in nonlinear optics ranging from plasmonics and $\mathcal{PT}$-symmetric systems to pulse propagation in waveguides with 2D materials [1] or dispersive nonlinearities [2]. As this physics relies on interplays between nonlinear, dispersive (or diffractive) and loss (or gain) effects, an accurate measurement of the nonlinear coefficient $\gamma$ cannot disregard either chromatic dispersion $\beta_{2}$ or linear loss $\alpha$, whereas state-of-the-art techniques require dispersionless [3] or lossless waveguides [4]. Moreover, such a measurement would aid theoretical ongoing research in discriminating competing nonlinear models founded on different assumptions [5]. Here we demonstrate a procedure for measuring $\beta_{2}/\gamma$, and hence $\gamma$ if $\beta_{2}$ is available, under conditions where dispersion and loss are comparable to nonlinear effects.

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来源期刊

Oceans

CiteScore

3.10

自引率

0.00%

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