改变光学景观。

Transforming the optical landscape.

机构信息

The Blackett Laboratory, Department of Physics, Imperial College London, London SW72AZ, UK.

Photonic Centre of Excellence (OPTIMUS), School of Electrical and Electronic Engineering, Nanyang Technological University, Nanyang Avenue 639798, Singapore.

出版信息

Science. 2015 May 1;348(6234):521-4. doi: 10.1126/science.1261244. Epub 2015 Apr 30.

DOI:10.1126/science.1261244

PMID:25931549

Abstract

Electromagnetism provides us with some of the most powerful tools in science, encompassing lasers, optical microscopes, magnetic resonance imaging scanners, radar, and a host of other techniques. To understand and develop the technology requires more than a set of formal equations. Scientists and engineers have to form a vivid picture that fires their imaginations and enables intuition to play a full role in the process of invention. It is to this end that transformation optics has been developed, exploiting Faraday's picture of electric and magnetic fields as lines of force, which can be manipulated by the electrical permittivity and magnetic permeability of surrounding materials. Transformation optics says what has to be done to place the lines of force where we want them to be.

摘要

电磁学为我们提供了一些最强大的科学工具，包括激光、光学显微镜、磁共振成像扫描仪、雷达以及许多其他技术。要理解和开发这项技术，需要的不仅仅是一组形式上的方程。科学家和工程师必须形成一个生动的画面，激发他们的想象力，使直觉在发明过程中充分发挥作用。正是出于这个目的，才发展了变换光学，利用法拉第的电场和磁场作为力线的图像，这些力线可以通过周围材料的介电常数和磁导率来操纵。变换光学告诉我们需要做什么来将力线放置在我们希望它们所在的位置。

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改变光学景观。

Transforming the optical landscape.

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