Add to ORKGWe report on the experimental realization of time-resolved coincident Coulomb explosion imaging of H2 fragmentation in 1014 W/cm2 laser fields. Combining a high-resolution "reaction microscope" and a fs pump-probe setup, we map the motion of wave packets dissociating via one- or two-photon channels, respectively, and observe a new region of enhanced ionization. The long-term interferometric stability of our system allows us to extend pump-probe experiments into the region of overlapping pulses, which offers new possibilities for the manipulation of ultrafast molecular fragmentation dynamics
We demonstrate experimentally that in pump-probe experiment of H-2 fragmentation by intense laser fi...
Laser-induced rotational wave packets of H2 and D2 molecules were experimentally measured in real ti...
Doctor of PhilosophyDepartment of PhysicsItzhak Ben-ItzhakPresent laser technology allows for the pr...
We report on the experimental realization of time-resolved coincident Coulomb explosion imaging of H...
We report on the experimental realisation of time-resolved coincident Coulomb explosion imaging of H...
We report on the experimental realisation of time-resolved coincident Coulomb explosion imaging of H...
We report on the experimental realisation of time-resolved coincident Coulomb explosion imaging of H...
We report on the experimental realisation of time-resolved coincident Coulomb explosion imaging of H...
In course of this work pump-probe experiments aimed to study ultrafast nuclear motion in H2 (D2) fra...
In course of this work pump-probe experiments aimed to study ultrafast nuclear motion in H2 (D2) fra...
The time evolution of H2+ (D2+) nuclear wave packets is studied exploiting a combination of coincide...
Fragmentation of H-2 in femtosecond laser field is studied by using velocity map ion imaging method ...
The time evolution of H2+ (D2+) nuclear wave packets is studied exploiting a combination of coincide...
The break-up of methane molecules exposed to intense laser fields has been studied using a combinati...
We use laser Coulomb explosion imaging (CEI) to measure structural change during molecular ultra-fas...
We demonstrate experimentally that in pump-probe experiment of H-2 fragmentation by intense laser fi...
Laser-induced rotational wave packets of H2 and D2 molecules were experimentally measured in real ti...
Doctor of PhilosophyDepartment of PhysicsItzhak Ben-ItzhakPresent laser technology allows for the pr...
We report on the experimental realization of time-resolved coincident Coulomb explosion imaging of H...
We report on the experimental realisation of time-resolved coincident Coulomb explosion imaging of H...
We report on the experimental realisation of time-resolved coincident Coulomb explosion imaging of H...
We report on the experimental realisation of time-resolved coincident Coulomb explosion imaging of H...
We report on the experimental realisation of time-resolved coincident Coulomb explosion imaging of H...
In course of this work pump-probe experiments aimed to study ultrafast nuclear motion in H2 (D2) fra...
In course of this work pump-probe experiments aimed to study ultrafast nuclear motion in H2 (D2) fra...
The time evolution of H2+ (D2+) nuclear wave packets is studied exploiting a combination of coincide...
Fragmentation of H-2 in femtosecond laser field is studied by using velocity map ion imaging method ...
The time evolution of H2+ (D2+) nuclear wave packets is studied exploiting a combination of coincide...
The break-up of methane molecules exposed to intense laser fields has been studied using a combinati...
We use laser Coulomb explosion imaging (CEI) to measure structural change during molecular ultra-fas...
We demonstrate experimentally that in pump-probe experiment of H-2 fragmentation by intense laser fi...
Laser-induced rotational wave packets of H2 and D2 molecules were experimentally measured in real ti...
Doctor of PhilosophyDepartment of PhysicsItzhak Ben-ItzhakPresent laser technology allows for the pr...