Add to ORKGWe predict and quantitatively evaluate the unique possibility of concentrating the energy of an ultrafast excitation of a nanosystem in a small part of the whole system by means of coherent control (phase modulation of the exciting ultrashort pulse). Such concentration is due to dynamic properties of surface plasmons and leads to local fields enhanced by orders of magnitude. This effect exists for both “engineered ” and random nanosystems. We also discuss possible applications in nano-photonics, nano-lithography, and nano-computin
We demonstrate a generalized route to generate nanometer spatially confined ultrafast optical pulses...
The dramatic advances of nanotechnology experienced in recent years enabled us to fabricate optical ...
A femtosecond (fs) pulse duration is shorter than many physical/chemical characteristic times, such ...
We predict and theoretically investigate the unique possibility to control distribution of ultrafast...
Coherent control is an ingenious tactic to steer a system to a desired optimal state by tailoring th...
We present a review on the advances of pulse control and ultrafast coherent excitation of both plasm...
We present a review on the advances of pulse control and ultrafast coherent excitation of both plasm...
International audienceSurface plasmons are collective oscillations of free electrons at the interfac...
peer reviewedSurface plasmons are collective oscillations of free electrons at the interface between...
11 pags., 7 figs., app.In this study we present an analytical description of the ultrafast localized...
A metal nanoparticle can be considered as consisting of a base of positive ion cores and a sea of fr...
Ultra-fast nano-optics is a comparatively young and rapidly growing field of research aiming at prob...
Coherent control is an ingenious tactic to steer a system to a desired optimal state by tailoring th...
Coherent control is an ingenious tactic to steer a system to a desired optimal state by tailoring th...
We demonstrate coherent control over the optical response of a coupled plasmonic resonator by high-e...
We demonstrate a generalized route to generate nanometer spatially confined ultrafast optical pulses...
The dramatic advances of nanotechnology experienced in recent years enabled us to fabricate optical ...
A femtosecond (fs) pulse duration is shorter than many physical/chemical characteristic times, such ...
We predict and theoretically investigate the unique possibility to control distribution of ultrafast...
Coherent control is an ingenious tactic to steer a system to a desired optimal state by tailoring th...
We present a review on the advances of pulse control and ultrafast coherent excitation of both plasm...
We present a review on the advances of pulse control and ultrafast coherent excitation of both plasm...
International audienceSurface plasmons are collective oscillations of free electrons at the interfac...
peer reviewedSurface plasmons are collective oscillations of free electrons at the interface between...
11 pags., 7 figs., app.In this study we present an analytical description of the ultrafast localized...
A metal nanoparticle can be considered as consisting of a base of positive ion cores and a sea of fr...
Ultra-fast nano-optics is a comparatively young and rapidly growing field of research aiming at prob...
Coherent control is an ingenious tactic to steer a system to a desired optimal state by tailoring th...
Coherent control is an ingenious tactic to steer a system to a desired optimal state by tailoring th...
We demonstrate coherent control over the optical response of a coupled plasmonic resonator by high-e...
We demonstrate a generalized route to generate nanometer spatially confined ultrafast optical pulses...
The dramatic advances of nanotechnology experienced in recent years enabled us to fabricate optical ...
A femtosecond (fs) pulse duration is shorter than many physical/chemical characteristic times, such ...