Add to ORKGThe spectral evolution of a high-intensity light channel formed by filamentation is investigated in a detailed experimental study. We also track the spatio-temporal dynamics by high-order harmonic generation along the filament. Both the spectral and temporal diagnostics are performed as a function of propagation distance, by extracting the light pulses directly from the hot filament core into vacuum via pinholes that terminate the nonlinear propagation. We compare the measured spectral shapes to simulations and analyze numerically the temporal dynamics inside the filament. © 2011 Optical Society of America
Laser filamentation is a highly complex and dynamic nonlinear process that is sensitive to many phys...
We present an experimental method capable of capturing the complete spatiotemporal dynamics of filam...
Laser filamentation is a complex phenomenon occurring for pulses with peak power above a critical va...
The full description of the evolution of light during its nonlinear propagation represents a valuabl...
The propagation of a high peak power femtosecond laser pulse through a dielectric medium results in ...
Intense, ultrashort laser pulses are required for the study of many nonlinear optical effects and ar...
International audienceWe report measurements concerning the propagation of femtosecond laser pulses ...
We present an experimental observation on spectrum evolution of femtosecond pulses in filamentation ...
We have studied the large-scale beam breakup and filamentation of femtosecond pulses in a Kerr mediu...
In 1995 Braun and co-workers reported the observation of self-channeling of femtosecond laser pulses...
We demonstrate a strong influence of the spatial beam profile on the vacuum-propagated on-axis pulse...
International audienceWe study the propagation of intense, high repetition rate laser pulses of pico...
Long distance propagation, or filamentation, of short, intense laser pulses is suggested to be possi...
We demonstrate an up to now unrecognized and very effective mechanism which prevents filament collap...
We present measurements of the supercontinuum emission (SCE) from ultrashort Ti:Saph laser pulse fil...
Laser filamentation is a highly complex and dynamic nonlinear process that is sensitive to many phys...
We present an experimental method capable of capturing the complete spatiotemporal dynamics of filam...
Laser filamentation is a complex phenomenon occurring for pulses with peak power above a critical va...
The full description of the evolution of light during its nonlinear propagation represents a valuabl...
The propagation of a high peak power femtosecond laser pulse through a dielectric medium results in ...
Intense, ultrashort laser pulses are required for the study of many nonlinear optical effects and ar...
International audienceWe report measurements concerning the propagation of femtosecond laser pulses ...
We present an experimental observation on spectrum evolution of femtosecond pulses in filamentation ...
We have studied the large-scale beam breakup and filamentation of femtosecond pulses in a Kerr mediu...
In 1995 Braun and co-workers reported the observation of self-channeling of femtosecond laser pulses...
We demonstrate a strong influence of the spatial beam profile on the vacuum-propagated on-axis pulse...
International audienceWe study the propagation of intense, high repetition rate laser pulses of pico...
Long distance propagation, or filamentation, of short, intense laser pulses is suggested to be possi...
We demonstrate an up to now unrecognized and very effective mechanism which prevents filament collap...
We present measurements of the supercontinuum emission (SCE) from ultrashort Ti:Saph laser pulse fil...
Laser filamentation is a highly complex and dynamic nonlinear process that is sensitive to many phys...
We present an experimental method capable of capturing the complete spatiotemporal dynamics of filam...
Laser filamentation is a complex phenomenon occurring for pulses with peak power above a critical va...