Add to ORKGWe characterize the temporal structure of high-order harmonic radiation on both the femtosecond and attosecond time scales. The harmonic emission is characterized by mixed-color two-photon ionization with an infrared femtosecond laser using a Mach-Zehnder interferometer where both pump and probe arms travel completely separate paths. In a first experiment, we measure the duration and chirp of individual harmonics. In a second experiment, we resolve, for the first time with this type of setup, the attosecond beating of several harmonics generated under conditions similar to the first experiment. We suggest that the results of both measurements can be combined to determine the full attosecond time structure of the harmonic emission
The group delay dispersion, also known as the attochirp, of high-order harmonics generated in gases ...
Real-time studies of ultra-fast evolving quantum systems require even faster probe mechanisms. For e...
The physics of high harmonics has led to the generation of attosecond pulses and to trains of attose...
We characterize the temporal structure of high-order harmonic radiation on both the femtosecond and ...
International audienceIn principle, the temporal beating of superposed high harmonics obtained by fo...
Attosecond science refers to physical processes that occur on the natural timescale of electron moti...
High-order harmonics generated through the interaction of atoms and strong laser fields are a versat...
International audienceWe study the phase of the atomic polarization in the process of high-order har...
The generation of intense, femtosecond-duration laser pulses using near-IR to IR wavelengths of ligh...
Radiation properties of high-order harmonic generation (HHG) are calculated for atoms in a strong la...
Attosecond pulse trains in the extreme ultraviolet range can be produced by high-order harmonic gene...
We investigate the generation of high-order harmonics using laser pulse energies in the few-mu J ran...
The principles of high-harmonic spectroscopy (HHS) are illustrated using two recent examples from th...
The group delay dispersion, also known as the attochirp, of high-order harmonics generated in gases ...
Real-time studies of ultra-fast evolving quantum systems require even faster probe mechanisms. For e...
The physics of high harmonics has led to the generation of attosecond pulses and to trains of attose...
We characterize the temporal structure of high-order harmonic radiation on both the femtosecond and ...
International audienceIn principle, the temporal beating of superposed high harmonics obtained by fo...
Attosecond science refers to physical processes that occur on the natural timescale of electron moti...
High-order harmonics generated through the interaction of atoms and strong laser fields are a versat...
International audienceWe study the phase of the atomic polarization in the process of high-order har...
The generation of intense, femtosecond-duration laser pulses using near-IR to IR wavelengths of ligh...
Radiation properties of high-order harmonic generation (HHG) are calculated for atoms in a strong la...
Attosecond pulse trains in the extreme ultraviolet range can be produced by high-order harmonic gene...
We investigate the generation of high-order harmonics using laser pulse energies in the few-mu J ran...
The principles of high-harmonic spectroscopy (HHS) are illustrated using two recent examples from th...
The group delay dispersion, also known as the attochirp, of high-order harmonics generated in gases ...
Real-time studies of ultra-fast evolving quantum systems require even faster probe mechanisms. For e...
The physics of high harmonics has led to the generation of attosecond pulses and to trains of attose...