Using the Hamiltonian structure of the Vlasov equation, we develop a general, relativistic, three-dimensional model of beam transport based on phase space moments of the beam particle distribution. Evolution equations for these mo-ments are derived from the non-canonical Poisson bracket for the Vlasov equation. In this model, the beam cen-troid experiences the full non-linear forces in the system while the higher order moments are coupled to both the centroid and to various spatial derivatives of the applied fields. For example, when moments up to second order are retained, the physics content is similar to considering lin-earized forces. Given the large number of equations (there are 27 equations when all second order moments are kept) and...
Equations are derived which describe the evolution of the second order moments of the beam distribut...
Equations are derived which describe the evolution of the second order moments of the beam distribut...
Laser plasma and beam plasma acceleration are promising routes towards a new generation of...
Shadwick et al. developed [Commun. Nonlinear. Sci. Numer. Simulat. 17, 2153-2160 (2012)] a self-cons...
AbstractWe formulate a new procedure for modelling the transverse dynamics of relativistic electron ...
We formulate a new procedure for modelling the transverse dynamics of relativistic electron beams wi...
A Hamiltonian approach to the solution of the Vlasov-Poisson equations has been developed. Based on ...
The use of distribution functions to model transverse beam dynamics is discussed. Emphasis is placed...
In the 1980s, Amendt and Weitzner proposed an interesting model capable to describe relativistic ele...
The Vlasov equation of kinetic theory is introduced and the Hamiltonian structure of its moments is ...
In many cases the Vlasov equation cannot be solved exactly due its inherent non-linearity arising fr...
An interesting and satisfactory fluid model has been proposed in literature for the description of ...
Many applications of particle acceleration, such as heavy ion fusion, require longitudinal bunching ...
Laser plasma and beam plasma acceleration are promising routes towards a new generation of particle ...
The Collective Beam-Beam interaction is studied in the framework of maps with a ``kick-lattice'' mod...
Equations are derived which describe the evolution of the second order moments of the beam distribut...
Equations are derived which describe the evolution of the second order moments of the beam distribut...
Laser plasma and beam plasma acceleration are promising routes towards a new generation of...
Shadwick et al. developed [Commun. Nonlinear. Sci. Numer. Simulat. 17, 2153-2160 (2012)] a self-cons...
AbstractWe formulate a new procedure for modelling the transverse dynamics of relativistic electron ...
We formulate a new procedure for modelling the transverse dynamics of relativistic electron beams wi...
A Hamiltonian approach to the solution of the Vlasov-Poisson equations has been developed. Based on ...
The use of distribution functions to model transverse beam dynamics is discussed. Emphasis is placed...
In the 1980s, Amendt and Weitzner proposed an interesting model capable to describe relativistic ele...
The Vlasov equation of kinetic theory is introduced and the Hamiltonian structure of its moments is ...
In many cases the Vlasov equation cannot be solved exactly due its inherent non-linearity arising fr...
An interesting and satisfactory fluid model has been proposed in literature for the description of ...
Many applications of particle acceleration, such as heavy ion fusion, require longitudinal bunching ...
Laser plasma and beam plasma acceleration are promising routes towards a new generation of particle ...
The Collective Beam-Beam interaction is studied in the framework of maps with a ``kick-lattice'' mod...
Equations are derived which describe the evolution of the second order moments of the beam distribut...
Equations are derived which describe the evolution of the second order moments of the beam distribut...
Laser plasma and beam plasma acceleration are promising routes towards a new generation of...