Artificial Nonlinearity Generated from Electromagnetic Coupling Meta-molecule
Abstract
A purely artificial mechanism for optical nonlinearity is proposed based on a metamaterial route. The mechanism is derived from classical electromagnetic interaction in a meta-molecule consisting of a cut-wire meta-atom nested within a split-ring meta-atom. Induced by the localized magnetic field in the split-ring meta-atom, the magnetic force drives an anharmonic oscillation of free electrons in the cut-wire meta-atom, generating an intrinsically nonlinear electromagnetic response. An explicit physical process of a second-order nonlinear behavior is adequately described, which is perfectly demonstrated with a series of numerical simulations. Instead of "borrowing" from natural nonlinear materials, this novel mechanism of optical nonlinearity is artificially dominated by the meta-molecule geometry and possesses unprecedented design freedom, offering fascinating possibilities to the research and application of nonlinear optics.
Cite
@article{arxiv.1803.03419,
title = {Artificial Nonlinearity Generated from Electromagnetic Coupling Meta-molecule},
author = {Yongzheng Wen and Ji Zhou},
journal= {arXiv preprint arXiv:1803.03419},
year = {2018}
}
Comments
13 pages + 10 pages supplement, published in Physical Review Letters