A highly accurate self-consistent particle code to simulate the beam-beam collision in $e^+e^-$ storage rings has been developed. It adopts a method of solving the Poisson equation with an open boundary. The method consists of two steps: assigning the potential on a finite boundary using the Green's function, and then solving the potential inside the boundary with a fast Poisson solver. Since the solution of the Poisson's equation is unique, our solution is exactly the same as the one obtained by simply using the Green's function. The method allows us to select much smaller region of mesh and therefore increase the resolution of the solver. The better resolution makes more accurate the calculation of the dynamics in the core of the beams. T...
The usual approach to predict particle loss in storage rings in the presence of nonlinearities consi...
We present an update on the development of the new code for long-term simulation of beam-beam effect...
We present recent advances in the modeling of beam electron-cloud dynamics, including surface effect...
A highly accurate self-consistent particle code to simulate the beam-beam col-lision in e e storage ...
To predict the evolution of electron clouds and their effect on the beam, the high energy physics co...
Self-consistent multi-particle simulation plays an important role in studying beam-beam effects and ...
For the past generation ${e}^{+}{e}^{\ensuremath{-}}$ storage ring colliders, we usually used natura...
The strong-strong beam-beam effect is one of the most important effects limiting the luminosity of r...
We present initial results for the self-consistent beam-cloud dynamics simulations for a sample LHC ...
The design optimization and analysis of charged particle beam systems employing intense beams requir...
While conventional tracking codes can readily provide higher-order optical quantities and give an es...
Simulation of high intensity accelerators leads to the so-lution of the Poisson Equation, to calcula...
Includes tables, figures, and algorithms.Particle accelerators are ubiquitous in science and society...
The incoherent effect on the bunch due to the interaction with electron clouds (e-clouds) leads to a...
A study of beam-beam collisions for an asymmetric single pass SuperB-Factory is presented [1]. In th...
The usual approach to predict particle loss in storage rings in the presence of nonlinearities consi...
We present an update on the development of the new code for long-term simulation of beam-beam effect...
We present recent advances in the modeling of beam electron-cloud dynamics, including surface effect...
A highly accurate self-consistent particle code to simulate the beam-beam col-lision in e e storage ...
To predict the evolution of electron clouds and their effect on the beam, the high energy physics co...
Self-consistent multi-particle simulation plays an important role in studying beam-beam effects and ...
For the past generation ${e}^{+}{e}^{\ensuremath{-}}$ storage ring colliders, we usually used natura...
The strong-strong beam-beam effect is one of the most important effects limiting the luminosity of r...
We present initial results for the self-consistent beam-cloud dynamics simulations for a sample LHC ...
The design optimization and analysis of charged particle beam systems employing intense beams requir...
While conventional tracking codes can readily provide higher-order optical quantities and give an es...
Simulation of high intensity accelerators leads to the so-lution of the Poisson Equation, to calcula...
Includes tables, figures, and algorithms.Particle accelerators are ubiquitous in science and society...
The incoherent effect on the bunch due to the interaction with electron clouds (e-clouds) leads to a...
A study of beam-beam collisions for an asymmetric single pass SuperB-Factory is presented [1]. In th...
The usual approach to predict particle loss in storage rings in the presence of nonlinearities consi...
We present an update on the development of the new code for long-term simulation of beam-beam effect...
We present recent advances in the modeling of beam electron-cloud dynamics, including surface effect...