In this article, we analytically investigate the spectral broadening by self-phase modulation of strongly chirped optical pulses. The dispersion due to the nonlinear optical process is expressed as functions of a linear and a nonlinear initial chirp. As a result, it is found that the third-order dispersion strongly depends on the initial linear chirp and the nonlinearity for self-phase modulation
We study the existence and propagation properties of chirped localized pulses in a highly nonlinear ...
Linear and nonlinear effects often induce a pulse self-frequency shift as it propagates along with a...
We discuss self-phase modulations and related transverse effects accompanying interaction of a light...
The effect of self-phase modulation in chirped-pulse amplification is investigated. A numerical mode...
The generation of ultra-short pulses is typically governed by the interplay of dispersion and nonlin...
We analyze nonlinear effects associated with the spatiotemporal propagation of few-cycle optical pul...
International audienceSelf-phase modulation (SPM), one of those very fascinating effects discovered ...
It is analytically shown that weak initial spectral phase modulations cause a pulse-contrast degrada...
Self-phase modulation (SPM) has been extensively studied for several decades in optical fibers. This...
A theoretical study of the nonlinear propagation of picosecond chirped pulses in single-mode fibers ...
We experimentally demonstrate compensation of the impact of Kerr-nonlinearity with positive dispersi...
<p> Based on the generalized nonlinear Schrodinger equation and waveguiding properties typical of t...
International audienceWe present the results of the spectral analysis of intense ultrashort laser pu...
Our investigation is focused on the influence of the temporal pulse shape in chirped pulse fiber amp...
International audienceWe propose and experimentally demonstrate a new approach to dramatically reduc...
We study the existence and propagation properties of chirped localized pulses in a highly nonlinear ...
Linear and nonlinear effects often induce a pulse self-frequency shift as it propagates along with a...
We discuss self-phase modulations and related transverse effects accompanying interaction of a light...
The effect of self-phase modulation in chirped-pulse amplification is investigated. A numerical mode...
The generation of ultra-short pulses is typically governed by the interplay of dispersion and nonlin...
We analyze nonlinear effects associated with the spatiotemporal propagation of few-cycle optical pul...
International audienceSelf-phase modulation (SPM), one of those very fascinating effects discovered ...
It is analytically shown that weak initial spectral phase modulations cause a pulse-contrast degrada...
Self-phase modulation (SPM) has been extensively studied for several decades in optical fibers. This...
A theoretical study of the nonlinear propagation of picosecond chirped pulses in single-mode fibers ...
We experimentally demonstrate compensation of the impact of Kerr-nonlinearity with positive dispersi...
<p> Based on the generalized nonlinear Schrodinger equation and waveguiding properties typical of t...
International audienceWe present the results of the spectral analysis of intense ultrashort laser pu...
Our investigation is focused on the influence of the temporal pulse shape in chirped pulse fiber amp...
International audienceWe propose and experimentally demonstrate a new approach to dramatically reduc...
We study the existence and propagation properties of chirped localized pulses in a highly nonlinear ...
Linear and nonlinear effects often induce a pulse self-frequency shift as it propagates along with a...
We discuss self-phase modulations and related transverse effects accompanying interaction of a light...