Add to ORKGRecent progress in development of intense, ultrashort optical pulses opens new avenues for research of novel arrangements at very short time scales. In our recent papers an occurrence of Cherenkov-type radiation in a resonant string of dipoles excited by an ultrashort pulse at superluminal velocity with a double-frequency structure was predicted. In this article we consider a control of these frequencies by a pulse train containing many pump pulses. Investigated phenomena allows one to control the dynamics of radiation emitted by resonant periodic structures
Confinement of electromagnetic energy into a single well-controlled oscillation of light is very imp...
Recently we reported a novel idea of generating a localized bunch of electrons oscillating in-phase,...
Superradiance (SR) of electron bunches can be considered an effective method of production of ultras...
Recent progress in development of intense, ultrashort optical pulses opens new avenues for research ...
Recent progress in generation of optical pulses of durations comparable to one optical cycle has pre...
The optical response of a one-dimensional string made of dipoles with a periodically varying density...
This paper discusses the features of transient radiation from periodic one-dimensional resonant medi...
This paper discusses the features of transient radiation from periodic one-dimensional resonant medi...
We use an optical method based on sub-picosecond pulses moving in a nonlinear medium to generate re...
Cherenkov radiation is a ubiquitous phenomenon in nature. It describes electromagnetic radiation fro...
Experimental results are presented of the observation of stimulated Cherenkov radiation when intense...
One of the attractive methods of generating an ultrashort electromagnetic pulse is based on stimulat...
We show that pulses undergoing wave-breaking (shock formation) in fibers in the normal dispersion re...
Coherent terahertz-frequency hybrid modes in solid state materials are studied by subpicosecond pump...
We study theoretically a possibility of creation and ultrafast control (erasing, spatial frequency m...
Confinement of electromagnetic energy into a single well-controlled oscillation of light is very imp...
Recently we reported a novel idea of generating a localized bunch of electrons oscillating in-phase,...
Superradiance (SR) of electron bunches can be considered an effective method of production of ultras...
Recent progress in development of intense, ultrashort optical pulses opens new avenues for research ...
Recent progress in generation of optical pulses of durations comparable to one optical cycle has pre...
The optical response of a one-dimensional string made of dipoles with a periodically varying density...
This paper discusses the features of transient radiation from periodic one-dimensional resonant medi...
This paper discusses the features of transient radiation from periodic one-dimensional resonant medi...
We use an optical method based on sub-picosecond pulses moving in a nonlinear medium to generate re...
Cherenkov radiation is a ubiquitous phenomenon in nature. It describes electromagnetic radiation fro...
Experimental results are presented of the observation of stimulated Cherenkov radiation when intense...
One of the attractive methods of generating an ultrashort electromagnetic pulse is based on stimulat...
We show that pulses undergoing wave-breaking (shock formation) in fibers in the normal dispersion re...
Coherent terahertz-frequency hybrid modes in solid state materials are studied by subpicosecond pump...
We study theoretically a possibility of creation and ultrafast control (erasing, spatial frequency m...
Confinement of electromagnetic energy into a single well-controlled oscillation of light is very imp...
Recently we reported a novel idea of generating a localized bunch of electrons oscillating in-phase,...
Superradiance (SR) of electron bunches can be considered an effective method of production of ultras...