Nonlinear multimode photonics: nonlinear optics with many degrees of freedom

光子学 自由度(物理和化学) 计算机科学 非线性系统 多模光纤 连贯性(哲学赌博策略) 非线性光学 激光阈值 电子工程 物理 电信 光学 激光器 光纤 工程类 量子力学
作者
Logan G. Wright,William H. Renninger,Demetri N. Christodoulides,Frank W. Wise
出处
期刊:Optica [Optica Publishing Group]
卷期号:9 (7): 824-824 被引量:89
标识
DOI:10.1364/optica.461981
摘要

The overall goal of photonics research is to understand and control light in new and richer ways to facilitate new and richer applications. Many major developments to this end have relied on nonlinear optical techniques, such as lasing, mode-locking, and parametric downconversion, to enable applications based on the interactions of coherent light with matter. These processes often involve nonlinear interactions between photonic and material degrees of freedom spanning multiple spatiotemporal scales. While great progress has been made with relatively simple optimizations, such as maximizing single-mode coherence or peak intensity alone, the ultimate achievement of coherent light engineering is complete, multidimensional control of light–light and light–matter interactions through tailored construction of complex optical fields and systems that exploit all of light’s degrees of freedom. This capability is now within sight, due to advances in telecommunications, computing, algorithms, and modeling. Control of highly multimode optical fields and processes also facilitates quantitative and qualitative advances in optical imaging, sensing, communication, and information processing since these applications directly depend on our ability to detect, encode, and manipulate information in as many optical degrees of freedom as possible. Today, these applications are increasingly being enhanced or enabled by both multimode engineering and nonlinearity. Here, we provide a brief overview of multimode nonlinear photonics, focusing primarily on spatiotemporal nonlinear wave propagation and, in particular, on promising future directions and routes to applications. We conclude with an overview of emerging processes and methodologies that will enable complex, coherent nonlinear photonic devices with many degrees of freedom.
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