Add to ORKGOn the basis of a novel phase modulation method by in-plane diffraction processes, a well-designed nanoarray on metal surface is proposed to realize a broad band focusing (bandwidth ∼100 nm) and a demultiplexing element (resolution ∼12 nm) of surface plasmon polariton (SPP) waves. Moreover, sublattice arrays are developed to achieve an improved demultiplexer and confocal SPP beams. The proposed scheme with implemented functionalities is designed totally in planar dimension, which is free of the SPP coupling process and indicates more practical application in photonic integrations
We experimentally demonstrate a mechanism of broad-angle and efficient unidirectional excitations of...
Plasmonics, which allows for manipulation of light field beyond the fundamental diffraction limit, h...
Based on a novel phase-sieve method by in-plane interference processes, a well-designed nonperiodic ...
On the basis of a novel phase modulation method by in-plane diffraction processes, a well-designed n...
We extend the phase modulation method by in-plane diffractions from plane wave incidence to point so...
International audienceThe emerging field of plasmonics is based on exploiting the coupling between l...
Surface plasmon polaritons are electromagnetic waves that propagate tightly bound to metal surfaces....
Demonstrated that analog of diffractive and refractive 3D optics in free space can be developed to m...
A plasmonic interference pattern can be formed when multiple surface plasmon waves overlap coherentl...
An important aim of current research on plasmonics is to develop compact components to manipulate su...
Ultra-broadband, efficient and unidirectional surface plasmon polariton (SPP) launching is of great ...
© 2015 Dr. Amir Djalalian-AsslWavelength division multiplexing/demultiplexing in radio frequency com...
Surface-plasmon-polariton (SPP) launchers, which can couple the free space light to the SPPs on the ...
plasmon dispersion in hole arrays Wayne Dickson A nanostructured optical system based on polaritonic...
Here we demonstrate a novel surface plasmon polariton (SPP) microscope which is capable of imaging b...
We experimentally demonstrate a mechanism of broad-angle and efficient unidirectional excitations of...
Plasmonics, which allows for manipulation of light field beyond the fundamental diffraction limit, h...
Based on a novel phase-sieve method by in-plane interference processes, a well-designed nonperiodic ...
On the basis of a novel phase modulation method by in-plane diffraction processes, a well-designed n...
We extend the phase modulation method by in-plane diffractions from plane wave incidence to point so...
International audienceThe emerging field of plasmonics is based on exploiting the coupling between l...
Surface plasmon polaritons are electromagnetic waves that propagate tightly bound to metal surfaces....
Demonstrated that analog of diffractive and refractive 3D optics in free space can be developed to m...
A plasmonic interference pattern can be formed when multiple surface plasmon waves overlap coherentl...
An important aim of current research on plasmonics is to develop compact components to manipulate su...
Ultra-broadband, efficient and unidirectional surface plasmon polariton (SPP) launching is of great ...
© 2015 Dr. Amir Djalalian-AsslWavelength division multiplexing/demultiplexing in radio frequency com...
Surface-plasmon-polariton (SPP) launchers, which can couple the free space light to the SPPs on the ...
plasmon dispersion in hole arrays Wayne Dickson A nanostructured optical system based on polaritonic...
Here we demonstrate a novel surface plasmon polariton (SPP) microscope which is capable of imaging b...
We experimentally demonstrate a mechanism of broad-angle and efficient unidirectional excitations of...
Plasmonics, which allows for manipulation of light field beyond the fundamental diffraction limit, h...
Based on a novel phase-sieve method by in-plane interference processes, a well-designed nonperiodic ...