Add to ORKGExtreme ultraviolet (XUV) laser radiography is a technique that allows the investigation of hydrodynamic perturbations with high spatial and temporal resolution. A Ne-like Ge XUV laser with wavelength lambda = 19.6 nm was used as a backlighter for 2 pm thick Al foils, and a Ni-like Sm XUV laser at lambda = 7.3 nm for 2 pm thick CH foils. The imprinted modulation and growth due to a low intensity (I = 5.0(12) to 1.5.10(13) W/cm(2)) 0.53 mu m drive beam incident on the thin foils has been determined. Smoothing techniques were used to minimise the optical perturbations, and the growth rates for the different smoothing schemes are compared. Moreover, single mode perturbation with I = 15, 30, 70 and 90 mu m wavelengths have been investigated to ...
A normal-incidence multilayer mirror telescope was designed, fabricated, and tested. The telescope c...
The thesis addresses several methods to characterize as well as enhance the Extreme UV emission of l...
With the advent of high-power laser facilities in the second half of the XXth century camethe abilit...
Extreme ultraviolet (XUV) laser radiography is a technique that allows the investigation of hydrodyn...
We have developed a technique for studying the imprint of a laser beam on a thin foil using an x-ray...
A novel diagnostic application of XUV lasers has been developed for the study of the hydrodynamic im...
A saturated XUV laser operating on the J=0-1, 19.6nm transition of Ne-like Germanium provided an exc...
For direct drive ICF, a capsule is imploded by directly illuminating the surface with laser light. B...
One key aspect for high gain direct drive inertial confinement fusion is the imprint of perturbation...
In direct drive inertial confinement fusion, the residual speckle pattern remaining after beam smoot...
The reliability and characteristics of collisionally pumped soft x-ray lasers make them ideal for a ...
High gain direct drive inertial confinement fusion requires very uniform irradiation of a hollow sph...
The authors have imaged laser-accelerated foils and exploding foils on the few-micron scale using an...
International audienceRadiative shocks can be produced in gases using high-energy lasers. As the ele...
Title: Characterization and focusing of capillary-discharge XUV-laser beam for purposes of thin-film...
A normal-incidence multilayer mirror telescope was designed, fabricated, and tested. The telescope c...
The thesis addresses several methods to characterize as well as enhance the Extreme UV emission of l...
With the advent of high-power laser facilities in the second half of the XXth century camethe abilit...
Extreme ultraviolet (XUV) laser radiography is a technique that allows the investigation of hydrodyn...
We have developed a technique for studying the imprint of a laser beam on a thin foil using an x-ray...
A novel diagnostic application of XUV lasers has been developed for the study of the hydrodynamic im...
A saturated XUV laser operating on the J=0-1, 19.6nm transition of Ne-like Germanium provided an exc...
For direct drive ICF, a capsule is imploded by directly illuminating the surface with laser light. B...
One key aspect for high gain direct drive inertial confinement fusion is the imprint of perturbation...
In direct drive inertial confinement fusion, the residual speckle pattern remaining after beam smoot...
The reliability and characteristics of collisionally pumped soft x-ray lasers make them ideal for a ...
High gain direct drive inertial confinement fusion requires very uniform irradiation of a hollow sph...
The authors have imaged laser-accelerated foils and exploding foils on the few-micron scale using an...
International audienceRadiative shocks can be produced in gases using high-energy lasers. As the ele...
Title: Characterization and focusing of capillary-discharge XUV-laser beam for purposes of thin-film...
A normal-incidence multilayer mirror telescope was designed, fabricated, and tested. The telescope c...
The thesis addresses several methods to characterize as well as enhance the Extreme UV emission of l...
With the advent of high-power laser facilities in the second half of the XXth century camethe abilit...