Title :
Modeling the pulse line ion accelerator (PLIA): an algorithm for quasi-static field solution
Author :
Friedman, A. ; Briggs, R.J. ; Grote, D.P. ; Henestroza, E. ; Waldron, W.L.
Author_Institution :
Heavy Ion Fusion Sci. Virtual Nat. Lab., Livermore
Abstract :
The pulse-line ion accelerator (PLIA) is a helical distributed transmission line. A rising pulse applied to the upstream end appears as a moving spatial voltage ramp, on which an ion pulse can be accelerated. This is a promising approach to acceleration and longitudinal compression of an ion beam at high line charge density. In most of the studies carried out to date, using both a simple code for longitudinal beam dynamics and the Warp PIC code, a circuit model for the wave behavior was employed; in Warp, the helix I and V are source terms in elliptic equations for E and B. However, it appears possible to obtain improved fidelity using a "sheath helix" model in the quasi-static limit. Here we describe an algorithmic approach that may be used to effect such a solution.
Keywords :
elliptic equations; ion accelerators; ion beams; particle beam dynamics; physics computing; PLIA; Warp PIC code; charge density; circuit model; elliptic equations; helical distributed transmission line; helix I; helix V; ion beam; longitudinal beam dynamics; longitudinal compression; pulse line ion accelerator; quasistatic field solution; sheath helix; spatial voltage ramp; Acceleration; Capacitance; Circuit simulation; Computational modeling; Ion accelerators; Ion beams; Laboratories; Transmission lines; Voltage; Wire;
Conference_Titel :
Particle Accelerator Conference, 2007. PAC. IEEE
Conference_Location :
Albuquerque, NM
Print_ISBN :
978-1-4244-0916-7
DOI :
10.1109/PAC.2007.4441251
