Add to ORKGThe average multipole surface-plasmon energy for simple metals, as well as that of ordinary surface and bulk plasmons, is obtained using energy-weighted moments of the electronic response to sufficiently general external perturbations. A local approximation of exchange and correlation effects is used within a jellium model. Band-structure effects are incorporated through an effective electronic mass. Taking advantage of the transparency of the method, we analyze under what circumstances such modes might be observable. It is shown that due to an interplay between Coulomb and kinetic energies, the multipole modes become unobservable for increasing values of the transferred momentum (q) parallel to the surface. The value of q at which the mult...
A semiclassical model is developed to describe plasmon–electron coupling and electronic damping of s...
The collective excitations in simple metal surfaces have been extensively studied and well understoo...
The collective excitations in simple metal surfaces have been extensively studied and well understoo...
The average multipole surface-plasmon energy for simple metals, as well as that of ordinary surface ...
equations are used to describe the electromagnetic field of the photon, wherein the electron system ...
Collective surface electronic excitations on Ag(111) and Ag(110) have been studied by energy-loss-sp...
An Euler-Lagrange-type equation is solved to different orders for aplane metallic system perturbed b...
We use an extension of the hydrodynamic model to study nonlocal effects in the collective plasmon ex...
© 2014 American Chemical Society. We use an extension of the hydrodynamic model to study nonlocal ef...
Within the random-phase approximation (RPA), we have obtained the average surface-plasmon energy of ...
Within the random-phase approximation (RPA), we have obtained the average surface-plasmon energy of ...
Recent progress in experimental and theoretical investigations of surface electronic excitations of ...
The use of angle- and energy-resolved photoyield experiments for the study of collective excitations...
The surface plasmon dispersion relation of Ag is calculated for different single-crystal orientation...
Collective electronic excitations at metal surfaces are well known to play a key role in a wide spec...
A semiclassical model is developed to describe plasmon–electron coupling and electronic damping of s...
The collective excitations in simple metal surfaces have been extensively studied and well understoo...
The collective excitations in simple metal surfaces have been extensively studied and well understoo...
The average multipole surface-plasmon energy for simple metals, as well as that of ordinary surface ...
equations are used to describe the electromagnetic field of the photon, wherein the electron system ...
Collective surface electronic excitations on Ag(111) and Ag(110) have been studied by energy-loss-sp...
An Euler-Lagrange-type equation is solved to different orders for aplane metallic system perturbed b...
We use an extension of the hydrodynamic model to study nonlocal effects in the collective plasmon ex...
© 2014 American Chemical Society. We use an extension of the hydrodynamic model to study nonlocal ef...
Within the random-phase approximation (RPA), we have obtained the average surface-plasmon energy of ...
Within the random-phase approximation (RPA), we have obtained the average surface-plasmon energy of ...
Recent progress in experimental and theoretical investigations of surface electronic excitations of ...
The use of angle- and energy-resolved photoyield experiments for the study of collective excitations...
The surface plasmon dispersion relation of Ag is calculated for different single-crystal orientation...
Collective electronic excitations at metal surfaces are well known to play a key role in a wide spec...
A semiclassical model is developed to describe plasmon–electron coupling and electronic damping of s...
The collective excitations in simple metal surfaces have been extensively studied and well understoo...
The collective excitations in simple metal surfaces have been extensively studied and well understoo...