Add to ORKGOur examination of the optical properties of small gold chains containing up to 24 atoms doped with a transition metal (TM) atom (Ni, Rh, Fe), using the time-dependent density functional theory, show the splitting of the collective plasmon peak. We associate the additional peak with a local plasmonic mode which corresponds to charge oscillations around the potential created by the d orbitals of the impurity atoms. The effect is almost independent of the position of the TM atom in the chain, as long as it is not at the chain edge. This behavior is opposite to that of larger noble-metal-TM clusters (radius \u3e 1 nm), in which doping with TM atoms does not lead to generation of new modes, and often produces a suppression of the main plasmon p...
The dielectric properties of a regular 2D array of Au nanowires are investigated using time-dependen...
The existence and nature of end and central plasmon resonances in a linear atomic chain, the 1D anal...
Optical properties of metal nanostructures are the basis of several scientific and technological app...
Our examination of the optical properties of small gold chains containing up to 24 atoms doped with ...
Electronic excitations in linear atomic chains of simple and noble metals (silver) have been studied...
Features of the surface plasmon from macroscopic materials emerge in molecular systems, but differen...
The capability of collective excitations, such as localized surface plasmon resonances, to produce a...
International audienceThe peculiar optical properties of noble-metal clusters and nanoparticles are ...
We show using time-dependent density functional theory (TDDFT) that light can be confined into slot ...
The unique plasmonic character of silver and gold nanoparticles has a wide range of applications, an...
In this thesis, Density Functional Theory and Time-Dependent Density-Functional Theory approaches ar...
In the last thirty years, the study of plasmonic properties of noble metal nanostructures has become...
Optical responses of noble metal clusters are characterized by a strong absorption in the UV-Visible...
We report a detailed study on the optical properties of Au<sub>279</sub>(SR)<sub>84</sub> using stea...
Metal nanoclusters can be synthesized in various sizes and shapes and are typically protected with l...
The dielectric properties of a regular 2D array of Au nanowires are investigated using time-dependen...
The existence and nature of end and central plasmon resonances in a linear atomic chain, the 1D anal...
Optical properties of metal nanostructures are the basis of several scientific and technological app...
Our examination of the optical properties of small gold chains containing up to 24 atoms doped with ...
Electronic excitations in linear atomic chains of simple and noble metals (silver) have been studied...
Features of the surface plasmon from macroscopic materials emerge in molecular systems, but differen...
The capability of collective excitations, such as localized surface plasmon resonances, to produce a...
International audienceThe peculiar optical properties of noble-metal clusters and nanoparticles are ...
We show using time-dependent density functional theory (TDDFT) that light can be confined into slot ...
The unique plasmonic character of silver and gold nanoparticles has a wide range of applications, an...
In this thesis, Density Functional Theory and Time-Dependent Density-Functional Theory approaches ar...
In the last thirty years, the study of plasmonic properties of noble metal nanostructures has become...
Optical responses of noble metal clusters are characterized by a strong absorption in the UV-Visible...
We report a detailed study on the optical properties of Au<sub>279</sub>(SR)<sub>84</sub> using stea...
Metal nanoclusters can be synthesized in various sizes and shapes and are typically protected with l...
The dielectric properties of a regular 2D array of Au nanowires are investigated using time-dependen...
The existence and nature of end and central plasmon resonances in a linear atomic chain, the 1D anal...
Optical properties of metal nanostructures are the basis of several scientific and technological app...