Add to ORKGIn this work a chain of 4000 silver nanoparticles embedded in a glass medium is considered, and its leftmost particle is excited by an electric field pulse of Gaussian shape. Considering Drude’s model, losses of the system are taken into account by γ factor, which stands for the Ohmic losses, and different quantities, such as frequencies of excited modes and group velocities are calculated. Besides, these results are compared to those obtained from the dispersion relation of an infinite chain. The increase of losses affects the lifetime and propagation length of the plasmon; besides, although the response dispersion relation for an infinite chain seems to remain invariable, this is not the case for a finite chain. The mismatches are ...
We study theoretically the efficiency of the transmission of optical signals through a linear chain ...
We study theoretically the efficiency of the transmission of optical signals through a linear chain ...
We study theoretically the efficiency of the transmission of optical signals through a linear chain ...
In this work a chain of 4000 silver nanoparticles embedded in a glass medium is considered, and its...
In this thesis numerical methods are used to understand the individual and collective optical respon...
This is the author accepted manuscript. The final version is available from the American Physical So...
We report a numerical investigation of surface plasmon (SP) propagation in ordered and disordered li...
Chains of metallic nanoparticles sustain strongly confined surface plasmons with relatively low diel...
We consider the dispersion relations of the optical excitations in a chain of silver nanoparticles s...
We consider the dispersion relations of the optical excitations in a chain of silver nanoparticles s...
We consider the dispersion relations of the optical excitations in a chain of silver nanoparticles s...
We consider the dispersion relations of the optical excitations in a chain of silver nanoparticles s...
We consider the dispersion relations of the optical excitations in a chain of silver nanoparticles s...
We study the optical responses of metal nanoparticle chains. Multiple scattering calculations are us...
This is the author accepted manuscript. The final version is available from IOP Publishing via the D...
We study theoretically the efficiency of the transmission of optical signals through a linear chain ...
We study theoretically the efficiency of the transmission of optical signals through a linear chain ...
We study theoretically the efficiency of the transmission of optical signals through a linear chain ...
In this work a chain of 4000 silver nanoparticles embedded in a glass medium is considered, and its...
In this thesis numerical methods are used to understand the individual and collective optical respon...
This is the author accepted manuscript. The final version is available from the American Physical So...
We report a numerical investigation of surface plasmon (SP) propagation in ordered and disordered li...
Chains of metallic nanoparticles sustain strongly confined surface plasmons with relatively low diel...
We consider the dispersion relations of the optical excitations in a chain of silver nanoparticles s...
We consider the dispersion relations of the optical excitations in a chain of silver nanoparticles s...
We consider the dispersion relations of the optical excitations in a chain of silver nanoparticles s...
We consider the dispersion relations of the optical excitations in a chain of silver nanoparticles s...
We consider the dispersion relations of the optical excitations in a chain of silver nanoparticles s...
We study the optical responses of metal nanoparticle chains. Multiple scattering calculations are us...
This is the author accepted manuscript. The final version is available from IOP Publishing via the D...
We study theoretically the efficiency of the transmission of optical signals through a linear chain ...
We study theoretically the efficiency of the transmission of optical signals through a linear chain ...
We study theoretically the efficiency of the transmission of optical signals through a linear chain ...