In this paper we examine the behavior of small cluster of atoms in a short (10-50 fs) very intense hard x-ray (10 keV) pulse. We use numerical modeling based on the non-relativistic classical equation of motion. Quantum processes are taken into account by the respective cross sections. We show that there is a Coulomb explosion, which has a different dynamics than one finds in classical laser driven cluster explosions. We discuss the consequences of our results to single molecule imaging by the free electron laser pulses
The behavior of small samples in very short and intense hard X-ray pulses is studied by molecular dy...
Femtosecond laser pulses have proven to provide valuable insight into the dynamics of microscopic sy...
The Coulomb explosion of the octamer water cluster has been studied employing time-dependent density...
In this paper we examine the behavior of small cluster of atoms in a short (10–50 fs) very intense h...
The explosion of rare-gas atomic clusters induced by short, intense X-ray pulses generated by a free...
We have examined the energy distributions of ions and electrons ejected in the interaction of cluste...
A fully relativistic particle-in-cell code is used to simulate atomic clusterexplosions following th...
By means of N-body simulations we study the ion and electron dynamics in molecular first-row hydride...
Recent studies of the explosions of atomic clusters driven by high intensity femtosecond laser pulse...
Free-electron lasers provide high intensity pulses with femtosecond duration and are ideal tools in ...
In this work, the Coulomb explosion of the octamer water cluster has been studied employing a theore...
The disintegration mechanisms for xenon clusters in intense femtosecond soft x-ray pulses from the F...
International audienceA semiclassical treatment of electrons coupled to classical molecular dynamics...
Clusters represent a new class of laser pulse targets which show both the properties of underdense a...
The Coulomb explosion of the octamer water cluster has been studied employing time-dependent density...
The behavior of small samples in very short and intense hard X-ray pulses is studied by molecular dy...
Femtosecond laser pulses have proven to provide valuable insight into the dynamics of microscopic sy...
The Coulomb explosion of the octamer water cluster has been studied employing time-dependent density...
In this paper we examine the behavior of small cluster of atoms in a short (10–50 fs) very intense h...
The explosion of rare-gas atomic clusters induced by short, intense X-ray pulses generated by a free...
We have examined the energy distributions of ions and electrons ejected in the interaction of cluste...
A fully relativistic particle-in-cell code is used to simulate atomic clusterexplosions following th...
By means of N-body simulations we study the ion and electron dynamics in molecular first-row hydride...
Recent studies of the explosions of atomic clusters driven by high intensity femtosecond laser pulse...
Free-electron lasers provide high intensity pulses with femtosecond duration and are ideal tools in ...
In this work, the Coulomb explosion of the octamer water cluster has been studied employing a theore...
The disintegration mechanisms for xenon clusters in intense femtosecond soft x-ray pulses from the F...
International audienceA semiclassical treatment of electrons coupled to classical molecular dynamics...
Clusters represent a new class of laser pulse targets which show both the properties of underdense a...
The Coulomb explosion of the octamer water cluster has been studied employing time-dependent density...
The behavior of small samples in very short and intense hard X-ray pulses is studied by molecular dy...
Femtosecond laser pulses have proven to provide valuable insight into the dynamics of microscopic sy...
The Coulomb explosion of the octamer water cluster has been studied employing time-dependent density...