Add to ORKGThis review paper provides a general introduction to the interaction of intense (>1015 Wcm2), femtosecond laser pulses with atomic clusters in the size range 500–105 atoms. A nanoplasma model of the laser–cluster interaction is used to elucidate the underlying physics. Measurements of ion emission from the laser–cluster interaction are presented together with numerical simulations. Emerging applications are described
We use a 3D fully relativistic PIC code to model the interaction of a high-intensity (>1017 W/cm2) u...
L'irradiation d'agrégats de gaz rare de taille nanométrique par une impulsion laser brève (quelques ...
The irradiation of nanometer-scale rare gas clusters by a short (a few hundreds of femtoseconds) and...
We have examined the energy distributions of ions and electrons ejected in the interaction of cluste...
In this thesis I describe investigations of the interaction of strong laser fields with nanoscale ta...
A fully relativistic particle-in-cell code is used to simulate atomic clusterexplosions following th...
The results of analytical studies and of two- and three dimensional particle in cell simulations of ...
Performed studies of keV X-ray production from (Ar)n, (Kr)n and (Xe)n rare gas clusters (with n betw...
Femtosecond laser pulses have proven to provide valuable insight into the dynamics of microscopic sy...
We have performed studies of keV X-ray production from (Ar)n, (Kr)n and (Xe)n rare gas clusters (wit...
We examine the interaction of intense, femtosecond laser radiation with the large (50–200 Å) cluster...
International audienceWe have performed studies of keV X-ray production from (Ar)n , (Kr)n and (Xe)n...
It has been recognized that irradiation of intense laser on atomic cluster leads to a number of nove...
We use a 3D fully relativistic PIC code to model the interaction of a high-intensity (>1017 W/cm2) u...
We use a 3D fully relativistic PIC code to model the interaction of a high-intensity (>1017 W/cm2) u...
We use a 3D fully relativistic PIC code to model the interaction of a high-intensity (>1017 W/cm2) u...
L'irradiation d'agrégats de gaz rare de taille nanométrique par une impulsion laser brève (quelques ...
The irradiation of nanometer-scale rare gas clusters by a short (a few hundreds of femtoseconds) and...
We have examined the energy distributions of ions and electrons ejected in the interaction of cluste...
In this thesis I describe investigations of the interaction of strong laser fields with nanoscale ta...
A fully relativistic particle-in-cell code is used to simulate atomic clusterexplosions following th...
The results of analytical studies and of two- and three dimensional particle in cell simulations of ...
Performed studies of keV X-ray production from (Ar)n, (Kr)n and (Xe)n rare gas clusters (with n betw...
Femtosecond laser pulses have proven to provide valuable insight into the dynamics of microscopic sy...
We have performed studies of keV X-ray production from (Ar)n, (Kr)n and (Xe)n rare gas clusters (wit...
We examine the interaction of intense, femtosecond laser radiation with the large (50–200 Å) cluster...
International audienceWe have performed studies of keV X-ray production from (Ar)n , (Kr)n and (Xe)n...
It has been recognized that irradiation of intense laser on atomic cluster leads to a number of nove...
We use a 3D fully relativistic PIC code to model the interaction of a high-intensity (>1017 W/cm2) u...
We use a 3D fully relativistic PIC code to model the interaction of a high-intensity (>1017 W/cm2) u...
We use a 3D fully relativistic PIC code to model the interaction of a high-intensity (>1017 W/cm2) u...
L'irradiation d'agrégats de gaz rare de taille nanométrique par une impulsion laser brève (quelques ...
The irradiation of nanometer-scale rare gas clusters by a short (a few hundreds of femtoseconds) and...