posted on 2013-05-02, 00:00authored byLorenzo Stella, Pu Zhang, F. J. García-Vidal, Angel Rubio, P. García-González
Semiclassical nonlocal optics based
on the hydrodynamic description
of conduction electrons might be an adequate tool to study complex
phenomena in the emerging field of nanoplasmonics. With the aim of
confirming this idea, we obtain the local and nonlocal optical absorption
spectra in a model nanoplasmonic device in which there are spatial
gaps between the components at nanometric and subnanometric scales.
After a comparison against time-dependent density functional calculations,
we conclude that hydrodynamic nonlocal optics provides absorption
spectra exhibiting qualitative agreement but not quantitative accuracy.
This lack of accuracy, which is manifest even in the limit where induced
electric currents are not established between the constituents of
the device, is mainly due to the poor description of induced electron
densities.