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Studies of materials under extreme conditions have relevance to a broad area of research, including planetary physics, fusion research, materials science, and structural biology with x-ray lasers. We study such extreme conditions and experimentally probe the interaction between ultrashort soft x-ray pulses and solid targets (metals and their deuterides) at the FLASH free-electron laser where power densities exceeding 10(17) W/cm(2) were reached. Time-of-flight ion spectrometry and crater analysis were used to characterize the interaction. The results show the onset of saturation in the ablation process at power densities above 10(16) W/cm(2). This effect can be linked to a transiently induced x-ray transparency in the solid by the femtoseco...
In this study, we have succeeded in observation of the transient surface nano-structures in femto-se...
Observing ultrafast laser-induced structural changes in nanoscale systems is essential for understan...
It is expected that free-electron laser (FEL) radiation with its unique properties will allowreal-ti...
Studies of materials under extreme conditions have relevance to a broad area of research, including ...
Studies of materials under extreme conditions have relevance to a broad area of research, including ...
Free-electron lasers provide high intensity pulses with femtosecond duration and are ideal tools in ...
X-ray scattering using highly brilliant x-ray free-electron laser (FEL) radiation provides new acces...
Radiation damage limits the resolution in imaging experiments. Damage is caused by energy deposited ...
The recent development of free-electron lasers operating at XUV and X-ray wavelengths are proving vi...
The complex physics of the interaction between short-pulse ultrahigh-intensity lasers and solids is ...
Matter with a high energy density (>10(5) joules per cm(3)) is prevalent throughout the Universe,...
The interaction of an ultrashort (sub-picosecond) laser pulse with a solid material creates unique a...
Active research is ongoing that investigates the properties of matter under extreme pressure. Such c...
As the use of free electron laser FEL sources increases, so do the findings mentioning non linear ...
A nonlinear absorber in which the excited state absorption is larger than the ground state can under...
In this study, we have succeeded in observation of the transient surface nano-structures in femto-se...
Observing ultrafast laser-induced structural changes in nanoscale systems is essential for understan...
It is expected that free-electron laser (FEL) radiation with its unique properties will allowreal-ti...
Studies of materials under extreme conditions have relevance to a broad area of research, including ...
Studies of materials under extreme conditions have relevance to a broad area of research, including ...
Free-electron lasers provide high intensity pulses with femtosecond duration and are ideal tools in ...
X-ray scattering using highly brilliant x-ray free-electron laser (FEL) radiation provides new acces...
Radiation damage limits the resolution in imaging experiments. Damage is caused by energy deposited ...
The recent development of free-electron lasers operating at XUV and X-ray wavelengths are proving vi...
The complex physics of the interaction between short-pulse ultrahigh-intensity lasers and solids is ...
Matter with a high energy density (>10(5) joules per cm(3)) is prevalent throughout the Universe,...
The interaction of an ultrashort (sub-picosecond) laser pulse with a solid material creates unique a...
Active research is ongoing that investigates the properties of matter under extreme pressure. Such c...
As the use of free electron laser FEL sources increases, so do the findings mentioning non linear ...
A nonlinear absorber in which the excited state absorption is larger than the ground state can under...
In this study, we have succeeded in observation of the transient surface nano-structures in femto-se...
Observing ultrafast laser-induced structural changes in nanoscale systems is essential for understan...
It is expected that free-electron laser (FEL) radiation with its unique properties will allowreal-ti...
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