时空波包

IF 25.2 1区 物理与天体物理 Q1 OPTICS
M. Yessenov, L. Hall, K. Schepler, A. Abouraddy
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引用次数: 29

摘要

“时空”(ST)波包构成了一类广泛的脉冲光场,它们在线性介质中刚性传输,没有衍射或色散,因此在没有光学非线性或波导结构的情况下传播不变。这种波包表现出独特的特性,例如自由空间中的可控群速度和奇异的折射现象。这些行为的根源是支撑ST波包的一个基本特征:它们的频谱相对于空间和时间自由度是不可分离的。事实上,时空结构被赋予了不可微分的角色散,其中每个空间频率与单个规定波长相关联。此外,偏离这种特定的时空结构会产生以精确方式偏离传播不变性的新行为,例如群速度的任意轴向分布的加速度、可调色散分布和时空中的塔尔博特效应。尽管ST波包的基本概念自20世纪80年代以来就已为人所知,但直到最近才出现了快速的实验发展。时空傅立叶合成的创新使这些进步成为可能,从而在光束光学和超快光学的交叉点为结构光开辟了一个新的前沿。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Space-time wave packets
"Space-time"(ST) wave packets constitute a broad class of pulsed optical fields that are rigidly transported in linear media without diffraction or dispersion, and are therefore propagation-invariant in absence of optical nonlinearities or waveguiding structures. Such wave packets exhibit unique characteristics, such as controllable group velocities in free space and exotic refractive phenomena. At the root of these behaviors is a fundamental feature underpinning ST wave packets: their spectra are not separable with respect to the spatial and temporal degrees of freedom. Indeed, the spatio-temporal structure is endowed with non-differentiable angular dispersion, in which each spatial frequency is associated with a single prescribed wavelength. Furthermore, deviation from this particular spatio-temporal structure yields novel behaviors that depart from propagation invariance in a precise manner, such as acceleration with an arbitrary axial distribution of the group velocity, tunable dispersion profiles, and Talbot effects in space-time. Although the basic concept of ST wave packets has been known since the 1980's, only very recently has rapid experimental development emerged. These advances are made possible by innovations in spatio-temporal Fourier synthesis, thereby opening a new frontier for structured light at the intersection of beam optics and ultrafast optics.
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来源期刊
CiteScore
56.60
自引率
0.00%
发文量
13
期刊介绍: Advances in Optics and Photonics (AOP) is an all-electronic journal that publishes comprehensive review articles and multimedia tutorials. It is suitable for students, researchers, faculty, business professionals, and engineers interested in optics and photonics. The content of the journal covers advancements in these fields, ranging from fundamental science to engineering applications. The journal aims to capture the most significant developments in optics and photonics. It achieves this through long review articles and comprehensive tutorials written by prominent and respected authors who are at the forefront of their fields. The journal goes beyond traditional text-based articles by enhancing the content with multimedia elements, such as animation and video. This multimedia approach helps to enhance the understanding and visualization of complex concepts. AOP offers dedicated article preparation and peer-review support to assist authors throughout the publication process. This support ensures that the articles meet the journal's standards and are well-received by readers. Additionally, AOP welcomes comments on published review articles, encouraging further discussions and insights from the scientific community. In summary, Advances in Optics and Photonics is a comprehensive journal that provides authoritative and accessible content on advancements in optics and photonics. With its diverse range of articles, multimedia enhancements, and dedicated support, AOP serves as a valuable resource for professionals and researchers in these fields.
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