We present a variant of spatially encoded spectral shearing interferometry for measuring two-dimensional spatio-temporal slices of few-cycle pulses centered around 2μm. We demonstrate experimentally that the device accurately retrieves the pulse-front tilt caused by angular dispersion of two-cycle pulses. We then use the technique to characterize 500–650 μJ pulses from a hollow fiber pulse compressor, with durations as short as 7.1 fs (1.3 optical cycles)
A new spectral shearing interferometry technique for ultrashort pulse characterization is demonstrat...
We show that multiple-shear spectral shearing interferometry can overcome the relative phase ambigui...
We use a spiral phase plate to generate few-cycle optical vortices from an ultrafast titanium:sapphi...
We have post-compressed 25 fs (Fourier limit) amplified pulses in an argon-filled hollow-core fiber....
We report on the full amplitude and phase characterization of high-intensity few-cycle laser pulses ...
We demonstrate the generation of high-energy sub-2-cycle laser pulses generated through hollow core ...
In this paper we apply a broadband fiber optic coupler interferometer to the measurement of few-cycl...
To manipulate electronic dynamics in their inherent time scale, ultrashortlaser sources delivering p...
We present a technique for characterizing ultrashort pulses in the spatiotemporal domain with high s...
Ultrashort optical pulses are integral to various fields. Thus, the characterization of these pulses...
International audienceWe propose a detailed analysis of a temporal multiplexing technique suited to ...
This work presents an implementation and optimization of a pulse characterization technique for ultr...
International audienceAbstract We present a novel, straightforward method for the characterization o...
We demonstrate that multiple spectral-shearing interferometry increases the precision and accuracy o...
Spatiotemporal compression of ultrashort pulses is one of the key issues of chirped pulse amplificat...
A new spectral shearing interferometry technique for ultrashort pulse characterization is demonstrat...
We show that multiple-shear spectral shearing interferometry can overcome the relative phase ambigui...
We use a spiral phase plate to generate few-cycle optical vortices from an ultrafast titanium:sapphi...
We have post-compressed 25 fs (Fourier limit) amplified pulses in an argon-filled hollow-core fiber....
We report on the full amplitude and phase characterization of high-intensity few-cycle laser pulses ...
We demonstrate the generation of high-energy sub-2-cycle laser pulses generated through hollow core ...
In this paper we apply a broadband fiber optic coupler interferometer to the measurement of few-cycl...
To manipulate electronic dynamics in their inherent time scale, ultrashortlaser sources delivering p...
We present a technique for characterizing ultrashort pulses in the spatiotemporal domain with high s...
Ultrashort optical pulses are integral to various fields. Thus, the characterization of these pulses...
International audienceWe propose a detailed analysis of a temporal multiplexing technique suited to ...
This work presents an implementation and optimization of a pulse characterization technique for ultr...
International audienceAbstract We present a novel, straightforward method for the characterization o...
We demonstrate that multiple spectral-shearing interferometry increases the precision and accuracy o...
Spatiotemporal compression of ultrashort pulses is one of the key issues of chirped pulse amplificat...
A new spectral shearing interferometry technique for ultrashort pulse characterization is demonstrat...
We show that multiple-shear spectral shearing interferometry can overcome the relative phase ambigui...
We use a spiral phase plate to generate few-cycle optical vortices from an ultrafast titanium:sapphi...