Add to ORKGThe effects of the radiation reaction (RR) force on thin foils undergoing radiation pressure acceleration (RPA) are investigated. Using QED-particle-in-cell simulations, the infuence of the RR force on the collective electron dynamics within the target can be examined. The magnitude of the RR force is found to be strongly dependent on the target thickness, leading to effects which can be observed on a macroscopic scale, such as changes to the distribution of the emitted radiation and the target dynamics. This suggests that such parameters may be controlled in experiments at multi-PW laser facilities. In addition, the effects of the RR force are characterized in terms of an average radiation emission angle. We present an analytical model whi...
Interaction of laser plulses with intensities up to 1025 W/cm2 with overdense plasma targets is inve...
Multiple ion acceleration mechanisms can occur when an ultrathin foil is irradiated with an intense ...
Radiation Reaction (RR) effects in the interaction of an ultra-intense laser pulse with a thin plasm...
The effects of the radiation reaction (RR) force on thin foils undergoing radiation pressure acceler...
An investigation of the effects of the radiation reaction force on radiation pressure acceleration i...
The dynamics of the plasma critical density surface in an ultra-thin foil target irradiated by an ul...
The role of the radiation reaction force in ultraintense laser-driven ion acceleration is investigat...
The dynamics of the plasma critical density surface in an ultra-thin foil target irradiated by an ul...
A radiating electron source is shown to be created by a laser pulse (with intensity of 10^23 W/cm^2 ...
Accelerating objects using radiation pressure exerted by a beam of light has the potential to accele...
At the extremely high laser intensities expected in next generation experiments, electrons can becom...
Experiments investigating ion acceleration from laser-irradiated ultra-thin foils on the GEMINI lase...
The process of radiation pressure acceleration (RPA) of ions is investigated with the aim of suppres...
Radiation reaction (RR) effects on the acceleration of a thin plasma foil by a superintense laser pu...
The acceleration of sub-wavelength, solid-density plasma foils by the ultraintense radiation pressur...
Interaction of laser plulses with intensities up to 1025 W/cm2 with overdense plasma targets is inve...
Multiple ion acceleration mechanisms can occur when an ultrathin foil is irradiated with an intense ...
Radiation Reaction (RR) effects in the interaction of an ultra-intense laser pulse with a thin plasm...
The effects of the radiation reaction (RR) force on thin foils undergoing radiation pressure acceler...
An investigation of the effects of the radiation reaction force on radiation pressure acceleration i...
The dynamics of the plasma critical density surface in an ultra-thin foil target irradiated by an ul...
The role of the radiation reaction force in ultraintense laser-driven ion acceleration is investigat...
The dynamics of the plasma critical density surface in an ultra-thin foil target irradiated by an ul...
A radiating electron source is shown to be created by a laser pulse (with intensity of 10^23 W/cm^2 ...
Accelerating objects using radiation pressure exerted by a beam of light has the potential to accele...
At the extremely high laser intensities expected in next generation experiments, electrons can becom...
Experiments investigating ion acceleration from laser-irradiated ultra-thin foils on the GEMINI lase...
The process of radiation pressure acceleration (RPA) of ions is investigated with the aim of suppres...
Radiation reaction (RR) effects on the acceleration of a thin plasma foil by a superintense laser pu...
The acceleration of sub-wavelength, solid-density plasma foils by the ultraintense radiation pressur...
Interaction of laser plulses with intensities up to 1025 W/cm2 with overdense plasma targets is inve...
Multiple ion acceleration mechanisms can occur when an ultrathin foil is irradiated with an intense ...
Radiation Reaction (RR) effects in the interaction of an ultra-intense laser pulse with a thin plasm...