International audienceA key quantity in simulating collective beam instabilities is the wake potential of a bunch of particles whose charge distribution is continuously evolving in time. However, obtaining such wake potential is only possible if a wake excited by a single particle in the surrounding environment is known. A practical self-consistent approach was developed to obtain an effective wake function from a numerical wake potential computed for a finite length bunch. The wake potential is processed to a numerical impedance which is decomposed into a set of well-known analytical wake functions. The decomposed impedance is then transformed back into time domain and, thus, converted into an effective wake function which is by nature phy...
The simulation of beam dynamics in the presence of collective effects requires a strong computationa...
The development of modern accelerator and free-electron laser projects often requires one to conside...
We consider the calculation of electromagnetic fields generated by an electron bunch passing through...
A key quantity in simulating collective beam instabilities is the wake potential of a bunch of parti...
Abstract In typical numerical simulations, the space-charge force is calculated by slicing a beam in...
Yaman, Fatih/0000-0002-4745-9957WOS: 000506165400052The aim of this study is to quantify longitudina...
The usual expression for the longitudinal wake field in terms of the impedance is exact only for th...
The usual expression for the longitudinal wake field in terms of the impedance is exact only for the...
We present a new method to accurately calculate point-charge geometric wakefields and/or short-bunch...
Wakes and impedances of single accelerator elements can be obtained by means of theoretical calculat...
In particle accelerators, pumping holes in a vacuum chamber can be a source of unwanted broadband co...
Analytic techniques for calculation of impedances and wake potentials in particle accelerators or st...
The simulation of beam dynamics in presence of collective effects requires a strong computational ef...
AbsttYKt tubes vanishes. One can therefore treat more general struc-We describe a generalized method...
We propose a new method for simulation study of the nonlinear interaction of a single bunch and acce...
The simulation of beam dynamics in the presence of collective effects requires a strong computationa...
The development of modern accelerator and free-electron laser projects often requires one to conside...
We consider the calculation of electromagnetic fields generated by an electron bunch passing through...
A key quantity in simulating collective beam instabilities is the wake potential of a bunch of parti...
Abstract In typical numerical simulations, the space-charge force is calculated by slicing a beam in...
Yaman, Fatih/0000-0002-4745-9957WOS: 000506165400052The aim of this study is to quantify longitudina...
The usual expression for the longitudinal wake field in terms of the impedance is exact only for th...
The usual expression for the longitudinal wake field in terms of the impedance is exact only for the...
We present a new method to accurately calculate point-charge geometric wakefields and/or short-bunch...
Wakes and impedances of single accelerator elements can be obtained by means of theoretical calculat...
In particle accelerators, pumping holes in a vacuum chamber can be a source of unwanted broadband co...
Analytic techniques for calculation of impedances and wake potentials in particle accelerators or st...
The simulation of beam dynamics in presence of collective effects requires a strong computational ef...
AbsttYKt tubes vanishes. One can therefore treat more general struc-We describe a generalized method...
We propose a new method for simulation study of the nonlinear interaction of a single bunch and acce...
The simulation of beam dynamics in the presence of collective effects requires a strong computationa...
The development of modern accelerator and free-electron laser projects often requires one to conside...
We consider the calculation of electromagnetic fields generated by an electron bunch passing through...