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Higher-Order Resonant Power Flow Inside and Around Superdirective Plasmonic Nanoparticles
Departmental Papers (ESE)
  • Andrea Alù, University of Pennsylvania
  • Nader Engheta, University of Pennsylvania
The optical power flow around a plasmonic particle has been a topic of research interest over the years [see e.g., C. F. Bohren, Am. J. Phys. 51, 323 (1983); V. A. Bashevoy, V. A. Federov, and N. I. Zheludev, Optics Express, 13, 8372 (2005)]. Here we revisit this problem with an emphasis on higher-order resonances, and we present the theoretical results of our analysis for such power flow distribution for plasmonic nanoparticles at their multipolar resonances. Results for the second and third orders of resonances show optical power flow patterns that are significantly different from that of the first-order resonance inside and around plasmonic superdirective nanoparticles, with multi-center vortices, saddle points and saddle lines, and with an anomalous circulation of power resembling higher-order modes in a resonant cavity. A potential application of these optical flow patterns to trap or move a neighboring nanoparticle is also briefly suggested.
Document Type
Journal Article
Date of this Version
Copyright 2007 Optical Society of America. Postprint version. Published in Journal of the Optical Society of America B - Optical Physics, Volume 24, Issue 10, October 2007, pages A89-A97.
Publisher URL:
  • metals,
  • surface plasmons,
  • mie theory
Citation Information
Andrea Alù and Nader Engheta. "Higher-Order Resonant Power Flow Inside and Around Superdirective Plasmonic Nanoparticles" (2007)
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