Add to ORKGWe study the impact of disorder on the properties of surface plasmons (SP) in metal nanoparticle arrays and develop analytical expressions enabling us to ascertain the degree of localization and mixing between the SP states. We show that it might be advantageous to intentionally introduce a certain degree of disorder in order to engineer the improved sensors and detectors
We report on the dispersion relations of surface plasmon resonance (SPR) modes in spatially extended...
ABSTRACT: This Letter describes how out-of-plane lattice plasmon (OLP) resonances in 2D Au nanoparti...
University of Technology, Sydney. Dept. of Applied Physics.Small conductive particles show a resonan...
Copyright © 2009 Optical Society of America. This paper was published in Optics Letters and is made ...
The size and shape of a metal nanoparticle determine its optical properties. When placed in an array...
The size and shape of a metal nanoparticle determine its optical properties. When placed in an array...
We analyze the localized surface plasmon resonance spectra of periodic square lattice arrays of gold...
W. Andrew Murray, Simion Astilean, and William L. Barnes, Physical Review B, Vol. 69, article 165407...
Materials show various responses to incident light, owing to their unique dielectric functions. A we...
We report a numerical investigation of surface plasmon (SP) propagation in ordered and disordered li...
Materials show various responses to incident light, owing to their unique dielectric functions. A we...
Materials show various responses to incident light, owing to their unique dielectric functions. A we...
Materials show various responses to incident light, owing to their unique dielectric functions. A we...
Materials show various responses to incident light, owing to their unique dielectric functions. A we...
The localized surface plasmon resonance (LSPR) effect in metal nanoparticles is important for a rang...
We report on the dispersion relations of surface plasmon resonance (SPR) modes in spatially extended...
ABSTRACT: This Letter describes how out-of-plane lattice plasmon (OLP) resonances in 2D Au nanoparti...
University of Technology, Sydney. Dept. of Applied Physics.Small conductive particles show a resonan...
Copyright © 2009 Optical Society of America. This paper was published in Optics Letters and is made ...
The size and shape of a metal nanoparticle determine its optical properties. When placed in an array...
The size and shape of a metal nanoparticle determine its optical properties. When placed in an array...
We analyze the localized surface plasmon resonance spectra of periodic square lattice arrays of gold...
W. Andrew Murray, Simion Astilean, and William L. Barnes, Physical Review B, Vol. 69, article 165407...
Materials show various responses to incident light, owing to their unique dielectric functions. A we...
We report a numerical investigation of surface plasmon (SP) propagation in ordered and disordered li...
Materials show various responses to incident light, owing to their unique dielectric functions. A we...
Materials show various responses to incident light, owing to their unique dielectric functions. A we...
Materials show various responses to incident light, owing to their unique dielectric functions. A we...
Materials show various responses to incident light, owing to their unique dielectric functions. A we...
The localized surface plasmon resonance (LSPR) effect in metal nanoparticles is important for a rang...
We report on the dispersion relations of surface plasmon resonance (SPR) modes in spatially extended...
ABSTRACT: This Letter describes how out-of-plane lattice plasmon (OLP) resonances in 2D Au nanoparti...
University of Technology, Sydney. Dept. of Applied Physics.Small conductive particles show a resonan...