Add to ORKGWe show that attosecond pulse trains have a natural application in the control of strong field processes. In combination with an intense infrared laser field, the pulse train can be used to microscopically select a single quantum path contribution to a process that would otherwise consist of several interfering components. We present calculations that demonstrate this by manipulating the time-frequency properties of high order harmonics at the single atom level. This quantum path selection can also be used to define a high resolution attosecond clock. © 2004 The American Physical Society
International audienceWe present measurements of the different quantum path contributions to the hig...
International audienceWe present measurements of the different quantum path contributions to the hig...
Attosecond pulses allow the study of electrons on their natural timescale. They are created from the...
The application of attosecond pulse train (APT) in controlling strong field quantum path driven by I...
We show that attosecond pulse trains are a natural tool to control strong field processes such as hi...
The combination of an attosecond pulse train with a strong infrared laser constitutes a new paradigm...
In this paper, we study the issue of single quantum path control and its role in attosecond pulse ge...
We demonstrate that high-order harmonics generated by an atom in intense laser field form trains of ...
We demonstrate that high-order harmonics generated by an atom in intense laser field form trains of ...
This PhD thesis deals with the sub-cycle nature of ultrafast phenomena that occur in strong-field li...
International audienceWe present measurements of the different quantum path contributions to the hig...
Attosecond science promises to reveal the most fundamental electronic dynamics occurring in matter a...
We perform a detailed analysis of how high-order harmonic generation (HHG) and above-threshold ioniz...
We investigate high-order harmonic generations by controlling various quantum paths of harmonics in ...
International audienceWe present measurements of the different quantum path contributions to the hig...
International audienceWe present measurements of the different quantum path contributions to the hig...
International audienceWe present measurements of the different quantum path contributions to the hig...
Attosecond pulses allow the study of electrons on their natural timescale. They are created from the...
The application of attosecond pulse train (APT) in controlling strong field quantum path driven by I...
We show that attosecond pulse trains are a natural tool to control strong field processes such as hi...
The combination of an attosecond pulse train with a strong infrared laser constitutes a new paradigm...
In this paper, we study the issue of single quantum path control and its role in attosecond pulse ge...
We demonstrate that high-order harmonics generated by an atom in intense laser field form trains of ...
We demonstrate that high-order harmonics generated by an atom in intense laser field form trains of ...
This PhD thesis deals with the sub-cycle nature of ultrafast phenomena that occur in strong-field li...
International audienceWe present measurements of the different quantum path contributions to the hig...
Attosecond science promises to reveal the most fundamental electronic dynamics occurring in matter a...
We perform a detailed analysis of how high-order harmonic generation (HHG) and above-threshold ioniz...
We investigate high-order harmonic generations by controlling various quantum paths of harmonics in ...
International audienceWe present measurements of the different quantum path contributions to the hig...
International audienceWe present measurements of the different quantum path contributions to the hig...
International audienceWe present measurements of the different quantum path contributions to the hig...
Attosecond pulses allow the study of electrons on their natural timescale. They are created from the...