Add to ORKGTargets consisting of 25 nm Al layers buried in solid carbon at depths of up to 400 nm have been irradiated with frequency doubled Ti:sapphire laser pulses of 150 fs duration at an intensity of a few 1017 W/cm2. The analysis of the emitted Al K-shell spectra yields densities close to that of solid Al and temperatures around 500 eV. By using the cold Si Kα line for wavelength calibration, the presence of a red dense- plasma line shift for several K-shell resonance and associated satellite lines is clearly demonstrated
Abstract Heating efficiently solid-density, or even compressed, matter has been a long-sought goal i...
A hot, 2 to 3 keV electron temperature surface plasma was observed in the interaction of a 0.7 ps pe...
A scheme to probe the temporal evolution of the K-shell photoabsorption edge in shock compressed al...
Targets consisting of 25 nm Al layers buried in solid carbon at depths of up to 400 nm have been irr...
Targets consisting of 25$\un{nm}$ $\chem{Al}$ layers buried in solid carbon at depths of up t...
A comparative study of temporally and spectrally resolved K- shell emission from aluminum targets he...
By irradiating a target consisting of a thin aluminum slab buried in carbon with blue pedestal-free ...
The absolutely calibrated K-shell spectra emitted from short-living aluminum plasmas at laser intens...
The x-ray intensities made available by x-ray free electron lasers (FEL) open up new x-ray matter in...
Optimization of a laser produced plasma (LPP) X-ray source has been performed by analyzing K-shell e...
The first observation of the K-shell photoabsorption edge of strongly coupled aluminum generated by ...
Relativistic short pulse laser matter interactions are of great interest in the area of high energy ...
We present detailed spectroscopic analysis of the primary K-shell emission lines from a uniaxially e...
International audienceThe rapid heating and cooling dynamics of thin solid foils driven by an ultrai...
Targets with a layer of aluminum buried beneath a plastic overlay have been irradiated with 0.53 1/4...
Abstract Heating efficiently solid-density, or even compressed, matter has been a long-sought goal i...
A hot, 2 to 3 keV electron temperature surface plasma was observed in the interaction of a 0.7 ps pe...
A scheme to probe the temporal evolution of the K-shell photoabsorption edge in shock compressed al...
Targets consisting of 25 nm Al layers buried in solid carbon at depths of up to 400 nm have been irr...
Targets consisting of 25$\un{nm}$ $\chem{Al}$ layers buried in solid carbon at depths of up t...
A comparative study of temporally and spectrally resolved K- shell emission from aluminum targets he...
By irradiating a target consisting of a thin aluminum slab buried in carbon with blue pedestal-free ...
The absolutely calibrated K-shell spectra emitted from short-living aluminum plasmas at laser intens...
The x-ray intensities made available by x-ray free electron lasers (FEL) open up new x-ray matter in...
Optimization of a laser produced plasma (LPP) X-ray source has been performed by analyzing K-shell e...
The first observation of the K-shell photoabsorption edge of strongly coupled aluminum generated by ...
Relativistic short pulse laser matter interactions are of great interest in the area of high energy ...
We present detailed spectroscopic analysis of the primary K-shell emission lines from a uniaxially e...
International audienceThe rapid heating and cooling dynamics of thin solid foils driven by an ultrai...
Targets with a layer of aluminum buried beneath a plastic overlay have been irradiated with 0.53 1/4...
Abstract Heating efficiently solid-density, or even compressed, matter has been a long-sought goal i...
A hot, 2 to 3 keV electron temperature surface plasma was observed in the interaction of a 0.7 ps pe...
A scheme to probe the temporal evolution of the K-shell photoabsorption edge in shock compressed al...