Attosecond electron wavepackets are produced when an intense laser field ionizes an atom or a molecule. When the laser field drives the wavepackets back to the parent ion, they interfere with the bound wavefunction, producing coherent subfemtosecond extreme-ultraviolet light bursts.When only a single return is possible an isolated attosecond pulse is generated. Here we demonstrate that by modulating the polarization of a carrier-envelope phase-stabilized short laser pulse, we can finely control the electron-wavepacket dynamics. We use high-order harmonic generation to probe these dynamics. Under optimized conditions, we observe the signature of a single return of the electron wavepacket over a large range of energies. This temporally confin...
We demonstrate that an electron wave packet produced during intense field ionization can be used for...
Kienberger R, Hentschel M, Uiberacker M, et al. Steering attosecond electron wave packets with light...
All aspects of attosecond technology rely on electron wavepackets formed by ionization and controlle...
Attosecond electron wavepackets are produced when an intense laser field ionizes an atom or a molecu...
Attosecond electron wavepackets are produced when an intense laser field ionizes an atom or a molecu...
When a low-frequency laser pulse is focused to a high intensity in a gas, the electric field of the ...
Attosecond pulses allow the study of electrons on their natural timescale. They are created from the...
Controlling attosecond electron wavepackets and soft x-ray pulses represents a formidable challenge ...
We generated single-cycle isolated attosecond pulses around \uc836 electron volts using phase- stabi...
Electron dynamics in atoms and molecules occurs on a time-scale of attoseconds (10⁻¹⁸s). With the av...
Attosecond pulses are central to the investigation of valence- and core-electron dynamics on their n...
It is still a dream to image the dynamics of electrons in atoms and molecules experimentally. This i...
We generated single-cycle isolated attosecond pulses around È36 electron volts using phasestabilized...
Attosecond pulses are opening a wide new field on the border of chemistry and physics. They offer th...
Temporal gating allows high accuracy time-resolved measurements of a broad range of ultrafast proces...
We demonstrate that an electron wave packet produced during intense field ionization can be used for...
Kienberger R, Hentschel M, Uiberacker M, et al. Steering attosecond electron wave packets with light...
All aspects of attosecond technology rely on electron wavepackets formed by ionization and controlle...
Attosecond electron wavepackets are produced when an intense laser field ionizes an atom or a molecu...
Attosecond electron wavepackets are produced when an intense laser field ionizes an atom or a molecu...
When a low-frequency laser pulse is focused to a high intensity in a gas, the electric field of the ...
Attosecond pulses allow the study of electrons on their natural timescale. They are created from the...
Controlling attosecond electron wavepackets and soft x-ray pulses represents a formidable challenge ...
We generated single-cycle isolated attosecond pulses around \uc836 electron volts using phase- stabi...
Electron dynamics in atoms and molecules occurs on a time-scale of attoseconds (10⁻¹⁸s). With the av...
Attosecond pulses are central to the investigation of valence- and core-electron dynamics on their n...
It is still a dream to image the dynamics of electrons in atoms and molecules experimentally. This i...
We generated single-cycle isolated attosecond pulses around È36 electron volts using phasestabilized...
Attosecond pulses are opening a wide new field on the border of chemistry and physics. They offer th...
Temporal gating allows high accuracy time-resolved measurements of a broad range of ultrafast proces...
We demonstrate that an electron wave packet produced during intense field ionization can be used for...
Kienberger R, Hentschel M, Uiberacker M, et al. Steering attosecond electron wave packets with light...
All aspects of attosecond technology rely on electron wavepackets formed by ionization and controlle...