Skip to main content
Article
Dynamical theory of artificial optical magnetism produced by rings of plasmonic nanoparticles
Departmental Papers (ESE)
  • Andrea Alù, University of Pennsylvania
  • Nader Engheta, University of Pennsylvania
Document Type
Journal Article
Date of this Version
8-1-2008
Comments
Copyright 2008 American Physical Society. Reprinted from Physical Review B, Volume 78, Article 085112, August 2008, 10 pages.
Publisher URL: http://dx.doi.org/ 10.1103/PhysRevB.78.085112
Abstract

We present a detailed analytical theory for the plasmonic nanoring configuration first proposed by Alù et al. [Opt. Express 14, 1557 (2006)], which is shown to provide negative magnetic permeability and negative index of refraction at infrared and optical frequencies. We show analytically how the nanoring configuration may provide superior performance when compared to some other solutions for optical negative-index materials, offering a more "pure" magnetic response at these high frequencies, which is necessary for lowering the effects of radiation losses and absorption. Sensitivity to losses and the bandwidth of operation of this magnetic inclusion are also investigated in detail and compared with other available setups.

Keywords
  • absorption coefficients,
  • magnetic permeability,
  • magneto-optical effects,
  • metamaterials,
  • nanoparticles,
  • optical materials,
  • photonic band gap,
  • plasmonics,
  • refractive index
Citation Information
Andrea Alù and Nader Engheta. "Dynamical theory of artificial optical magnetism produced by rings of plasmonic nanoparticles" (2008)
Available at: http://works.bepress.com/nader_engheta/96/