Title :
RF capture studies for injection into a synchrotron
Author :
Lessoer, E.S. ; Cho, Y.
Author_Institution :
Argonne Nat. Lab., IL, USA
Abstract :
The capture process for a rapid cycling proton synchrotron is studied by numerical simulation. The RF programming is optimized to allow efficient capture such that minimum particle losses and reasonable capture voltage are attained. The total capture time is constrained to be less than 700 μseconds. Two methods of trapping the injected beam by the synchrotron RF system are examined: by stationary adiabatic capture and by synchronous injection in a standing bucket of the ring. In the adiabatic method, the nonlinear function of Lilliequist and Symon(1959) is employed. The simulation allows the “tracking back” of the original distribution of any set of particles, in particular of those not captured at a given time, which is useful in studying injection alternatives such as shaping the phase-space density prior to injection. The simulation results will be used to design a chopper system to facilitate loss-free injection
Keywords :
beam handling techniques; proton accelerators; synchrotrons; RF capture studies; RF programming; capture voltage; chopper system; injected beam trapping; loss-free injection; minimum particle losses; nonlinear function; numerical simulation; phase-space density; rapid cycling proton synchrotron; standing bucket; stationary adiabatic capture; synchronous injection; synchrotron RF system; synchrotron injection; total capture time; Contracts; Equations; Government; Linear accelerators; Magnetic fields; Neutrons; Particle beam injection; Radio frequency; Synchrotrons; Voltage;
Conference_Titel :
Particle Accelerator Conference, 1993., Proceedings of the 1993
Conference_Location :
Washington, DC
Print_ISBN :
0-7803-1203-1
DOI :
10.1109/PAC.1993.308901
