Sculpting Waves (Presentation Recording)

N. Engheta
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引用次数: 0

Abstract

In electronics controlling and manipulating flow of charged carriers has led to design of numerous functional devices. In photonics, by analogy, this is done through controlling photons and optical waves. However, the challenges and opportunities are different in these two fields. Materials control waves, and as such they can tailor, manipulate, redirect, and scatter electromagnetic waves and photons at will. Recent development in condensed matter physics, nanoscience, and nanotechnology has made it possible to tailor materials with unusual parameters and extreme characteristics and with atomic precision and thickness. One can now construct structures much smaller than the wavelengths of visible light, thus ushering in unprecedented possibilities and novel opportunities for molding fields and waves at the nanoscale with desired functionalities. At such subwavelength scales, sculpting optical fields and waves provides a fertile ground for innovation and discovery. I will discuss some of the exciting opportunities in this area, and forecast some future directions and possibilities.
雕刻波浪(演示录音)
在电子学中,控制和操纵带电载流子的流动导致了许多功能器件的设计。在光子学中,通过类比,这是通过控制光子和光波来实现的。然而,这两个领域的挑战和机遇是不同的。物质控制波,因此它们可以随意裁剪、操纵、重定向和散射电磁波和光子。凝聚态物理、纳米科学和纳米技术的最新发展使得定制具有不同寻常参数和极端特性、原子精度和厚度的材料成为可能。人们现在可以构建比可见光波长小得多的结构,从而为在纳米尺度上塑造具有所需功能的场和波带来前所未有的可能性和新的机会。在这样的亚波长尺度上,雕刻光场和波为创新和发现提供了肥沃的土壤。我将讨论这个领域中一些令人兴奋的机会,并预测一些未来的方向和可能性。
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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