Add to ORKGCurrent models predict the hose instability to pose a strong constraint for the applicability of plasma-wakefield accelerators. The presented work demonstrates that self-consistent effects occurring during excitation of the plasma-wave and initial properties of the beam can suppress the hose instability. In addition, a new method for the reduction of the hose seed by shaping of the plasma target is proposed. We find excellent agreement between our theoretical models and PIC simulations
A new instability in laser-plasma interactions is analyzed. The instability arises when a laser puls...
We investigate the stability of the driving electron or positron beam in the plasma wakefield accele...
Self-modulation is a beam-plasma instability that is useful to drive large-amplitude wakefields with...
Current models predict the hose instability to crucially limit the applicability of plasma-wakefield...
Current models predict the hose instability to crucially limit the applicability of plasma-wakefield...
Thehose instabilityis a long standing challenge for plasma wakefield accelerators (PWFAs). It result...
Mitigation of the beam hose instability in plasma-based accelerators is required for the realization...
Current models predict the hose instability to crucially limit the applicability of plasma-wakefield...
The hose instability of the drive beam constitutes a major challenge for the stable operation of pla...
The hose instability of the drive beam constitutes a major challenge for the stable operation of pla...
Hosing is a major challenge for the applicability of plasma wakefield accelerators and its modeling ...
The propagation of an intense relativistic electron beam through a gas that is self-ionized by the b...
A number of recent theoretical works proposed various promising methods for the generation of high-q...
The self-modulation instability is a key effect that makes possible the usage of nowadays proton bea...
In the plasma-wakefield experiment at SLAC, known as E157, an ultra-relativistic electron beam is us...
A new instability in laser-plasma interactions is analyzed. The instability arises when a laser puls...
We investigate the stability of the driving electron or positron beam in the plasma wakefield accele...
Self-modulation is a beam-plasma instability that is useful to drive large-amplitude wakefields with...
Current models predict the hose instability to crucially limit the applicability of plasma-wakefield...
Current models predict the hose instability to crucially limit the applicability of plasma-wakefield...
Thehose instabilityis a long standing challenge for plasma wakefield accelerators (PWFAs). It result...
Mitigation of the beam hose instability in plasma-based accelerators is required for the realization...
Current models predict the hose instability to crucially limit the applicability of plasma-wakefield...
The hose instability of the drive beam constitutes a major challenge for the stable operation of pla...
The hose instability of the drive beam constitutes a major challenge for the stable operation of pla...
Hosing is a major challenge for the applicability of plasma wakefield accelerators and its modeling ...
The propagation of an intense relativistic electron beam through a gas that is self-ionized by the b...
A number of recent theoretical works proposed various promising methods for the generation of high-q...
The self-modulation instability is a key effect that makes possible the usage of nowadays proton bea...
In the plasma-wakefield experiment at SLAC, known as E157, an ultra-relativistic electron beam is us...
A new instability in laser-plasma interactions is analyzed. The instability arises when a laser puls...
We investigate the stability of the driving electron or positron beam in the plasma wakefield accele...
Self-modulation is a beam-plasma instability that is useful to drive large-amplitude wakefields with...