Add to ORKGLaser-ion acceleration has been of particular interest over the last decade for fundamental as well as applied sciences. Remarkable progress has been made in realizing laser-driven accelerators that are cheap and very compact compared with conventional rf-accelerators. Proton and ion beams have been produced with particle energies of up to 50MeV and several MeV/u, respectively, with outstanding properties in terms of transverse emittance and current. These beams typically exhibit an exponentially decaying energy distribution, but almost all advanced applications, such as oncology, proton imaging or fast ignition, require quasimonoenergetic beams with a low energy spread. The majority of the experiments investigated ion acceleration in the t...
The work described in this thesis is concerned with the experimental investigation of the accelerati...
Accelerating ions/protons can be done using short laser pulse (few femtoseconds) focused on few micr...
Ultra-short, high intensity laser pulses can generate energetic ions with exceptional beam-like qual...
Over the past few decades, the generation of high energetic ion beams by relativistic intense laser ...
The measurements reported here provide scaling laws for the acceleration process in the ultra-short ...
AbstractIon acceleration driven by high intensity laser pulses is attracting an impressive and stead...
The range of potential applications of compact laser-plasma ion sources motivates the development of...
fs pulsed lasers at an intensity of the order of 1018 W/cm2, with a contrast of 10−5, were employed ...
The development of novel target concepts is crucial to make laser-driven acceleration of ion beams s...
Laser-driven ion sources are a rapidly developing technology producing high energy, high peak curren...
In this study, ion acceleration from thin planar target foils irradiated by ultrahigh-contrast (10(1...
The irradiation of micrometer-thin metal foils by modern high-energy short-pulse lasers with intensi...
We report on experimental investigations of ion acceleration from thin foil targets irradiated with ...
We have investigated proton acceleration in the forward direction from a near-critical density hydro...
Abstract Nanostructured targets, based on hydrogenated polymers with embedded nanost...
The work described in this thesis is concerned with the experimental investigation of the accelerati...
Accelerating ions/protons can be done using short laser pulse (few femtoseconds) focused on few micr...
Ultra-short, high intensity laser pulses can generate energetic ions with exceptional beam-like qual...
Over the past few decades, the generation of high energetic ion beams by relativistic intense laser ...
The measurements reported here provide scaling laws for the acceleration process in the ultra-short ...
AbstractIon acceleration driven by high intensity laser pulses is attracting an impressive and stead...
The range of potential applications of compact laser-plasma ion sources motivates the development of...
fs pulsed lasers at an intensity of the order of 1018 W/cm2, with a contrast of 10−5, were employed ...
The development of novel target concepts is crucial to make laser-driven acceleration of ion beams s...
Laser-driven ion sources are a rapidly developing technology producing high energy, high peak curren...
In this study, ion acceleration from thin planar target foils irradiated by ultrahigh-contrast (10(1...
The irradiation of micrometer-thin metal foils by modern high-energy short-pulse lasers with intensi...
We report on experimental investigations of ion acceleration from thin foil targets irradiated with ...
We have investigated proton acceleration in the forward direction from a near-critical density hydro...
Abstract Nanostructured targets, based on hydrogenated polymers with embedded nanost...
The work described in this thesis is concerned with the experimental investigation of the accelerati...
Accelerating ions/protons can be done using short laser pulse (few femtoseconds) focused on few micr...
Ultra-short, high intensity laser pulses can generate energetic ions with exceptional beam-like qual...