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Anastasios H Panaretos

Showing results (1-10 of 12) with videos related to

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Optics Express|April 4, 2015
Multi-port admittance model for quantifying the scattering response of loaded plasmonic nanorod antennasAnastasios H Panaretos, Douglas H Werner
Optics Express|February 25, 2016
Spoof plasmon radiation using sinusoidally modulated corrugated reactance surfacesAnastasios H Panaretos, Douglas H Werner
Optics Express|February 25, 2016
Multi-port admittance model for quantifying the scattering response of loaded plasmonic nanorod antennas: erratumAnastasios H Panaretos, Douglas H Werner
Optics Express|November 3, 2017
Dual-mode plasmonic nanorod type antenna based on the concept of a trapped dipole: erratumAnastasios H Panaretos, Douglas H Werner
Optics Express|February 3, 2016
Multi-port admittance model for quantifying the scattering response of loaded plasmonic nanorod antennas: erratumAnastasios H Panaretos, Douglas H Werner
Optics Express|July 14, 2016
Leaky wave lenses for spoof plasmon collimationAnastasios H Panaretos, Douglas H Werner
Optics Express|November 13, 2013
Tunable wavelength dependent nanoswitches enabled by simple plasmonic core-shell particlesAnastasios H Panaretos, Douglas H Werner
Optics Express|May 14, 2015
Dual-mode plasmonic nanorod type antenna based on the concept of a trapped dipoleAnastasios H Panaretos, Douglas H Werner
Scientific Reports|May 12, 2015
Tuning the optical response of a dimer nanoantenna using plasmonic nanoring loadsAnastasios H Panaretos, Yu A Yuwen, Douglas H Werner, et al.
Scientific Reports|March 5, 2016
Corrigendum: Tuning the optical response of a dimer nanoantenna using plasmonic nanoring loadsAnastasios H Panaretos, Yu A Yuwen, Douglas H Werner, et al.
Pageof 2

Showing results (1-10 of 12) with videos related to

Sort By:
Pageof 2
Optics Express|April 4, 2015
Multi-port admittance model for quantifying the scattering response of loaded plasmonic nanorod antennasAnastasios H Panaretos, Douglas H Werner
Optics Express|February 25, 2016
Spoof plasmon radiation using sinusoidally modulated corrugated reactance surfacesAnastasios H Panaretos, Douglas H Werner
Optics Express|February 25, 2016
Multi-port admittance model for quantifying the scattering response of loaded plasmonic nanorod antennas: erratumAnastasios H Panaretos, Douglas H Werner
Optics Express|November 3, 2017
Dual-mode plasmonic nanorod type antenna based on the concept of a trapped dipole: erratumAnastasios H Panaretos, Douglas H Werner
Optics Express|February 3, 2016
Multi-port admittance model for quantifying the scattering response of loaded plasmonic nanorod antennas: erratumAnastasios H Panaretos, Douglas H Werner
Optics Express|July 14, 2016
Leaky wave lenses for spoof plasmon collimationAnastasios H Panaretos, Douglas H Werner
Optics Express|November 13, 2013
Tunable wavelength dependent nanoswitches enabled by simple plasmonic core-shell particlesAnastasios H Panaretos, Douglas H Werner
Optics Express|May 14, 2015
Dual-mode plasmonic nanorod type antenna based on the concept of a trapped dipoleAnastasios H Panaretos, Douglas H Werner
Scientific Reports|May 12, 2015
Tuning the optical response of a dimer nanoantenna using plasmonic nanoring loadsAnastasios H Panaretos, Yu A Yuwen, Douglas H Werner, et al.
Scientific Reports|March 5, 2016
Corrigendum: Tuning the optical response of a dimer nanoantenna using plasmonic nanoring loadsAnastasios H Panaretos, Yu A Yuwen, Douglas H Werner, et al.
Pageof 2