Add to ORKGWe formulate a possible description of the deflection of a relativistic $e^-$ beam in an inhomogeneous copper plasma, encountered by the beam when propagating through a accelerating cell that has undergone a high electric-field RF-breakdown. It is well known that an inhomogeneous plasma forms and may last for up to a few micro-seconds, until recombination in an accelerating structure where a field-emission triggers melting and ionization of RF-cell wall deformity. We present a preliminary model for the beam deflection due to collective plasma response based upon the beam density, plasma density and interaction length
Artificially generated plasmas may be employed to alter the propagation characteristics of electroma...
This paper explores the physics of vacuum rf breakdowns in subterahertz high-gradient traveling-wave...
Experiments using an electron beam produced by laser-wakefield acceleration have shown that varying ...
Refraction of e − beams due to plasma lensing at a plasma-vacuum interface – applied to beam deflect...
A plasma model is presented for the formation of \cath-ode spots " and subsequent crater develo...
We study the linear instabilities experienced by a relativistic electron beam passing through a plas...
The interaction of relativistic electron beam (REB) with an inhomogenous cold plasma on the spatial ...
The purpose of this research is the study of the effects of plasma state and fiber on coll...
This work examines effects, which impact the transverse quality of electron-beams in plasma-based ac...
We present an experimental study of a high gradient metallic accelerating structure at sub-THz frequ...
Results are presented from analytical theory and from two-dimensional particle-in-cell simulations o...
A systematic study on the Weibel instability induced filamentation of a relativistic electron beam i...
In a recent Brief Comment, the results of an experiment to measure the refraction of a particle beam...
The interest in relativistic beam-plasma instabilities has been greatly rejuvenated over the past tw...
The mechanism of electron acceleration by intense laser pulse interacting with an underdense plasma ...
Artificially generated plasmas may be employed to alter the propagation characteristics of electroma...
This paper explores the physics of vacuum rf breakdowns in subterahertz high-gradient traveling-wave...
Experiments using an electron beam produced by laser-wakefield acceleration have shown that varying ...
Refraction of e − beams due to plasma lensing at a plasma-vacuum interface – applied to beam deflect...
A plasma model is presented for the formation of \cath-ode spots " and subsequent crater develo...
We study the linear instabilities experienced by a relativistic electron beam passing through a plas...
The interaction of relativistic electron beam (REB) with an inhomogenous cold plasma on the spatial ...
The purpose of this research is the study of the effects of plasma state and fiber on coll...
This work examines effects, which impact the transverse quality of electron-beams in plasma-based ac...
We present an experimental study of a high gradient metallic accelerating structure at sub-THz frequ...
Results are presented from analytical theory and from two-dimensional particle-in-cell simulations o...
A systematic study on the Weibel instability induced filamentation of a relativistic electron beam i...
In a recent Brief Comment, the results of an experiment to measure the refraction of a particle beam...
The interest in relativistic beam-plasma instabilities has been greatly rejuvenated over the past tw...
The mechanism of electron acceleration by intense laser pulse interacting with an underdense plasma ...
Artificially generated plasmas may be employed to alter the propagation characteristics of electroma...
This paper explores the physics of vacuum rf breakdowns in subterahertz high-gradient traveling-wave...
Experiments using an electron beam produced by laser-wakefield acceleration have shown that varying ...