Title :
RF Gun optimization study
Author :
Hofler, A. ; Evtushenko, P. ; Krasilnikov, M.
Author_Institution :
Jefferson Lab., Newport News
Abstract :
Injector gun design is an iterative process where the designer optimizes a few nonlinearly interdependent beam parameters to achieve the required beam quality for a particle accelerator. Few tools exist to automate the optimization process and thoroughly explore the parameter space. The challenging beam requirements of new accelerator applications such as light sources and electron cooling devices drive the development of RF and SRF photo injectors. RF and SRF gun design is further complicated because the beam is space charge dominated. A genetic algorithm (GA) has been successfully used to optimize DC photo injector designs at Cornell University [1] and Jefferson Lab [2]. We propose studying how GA techniques can be applied to the design of RF and SRF gun injectors. In this paper, we report on the initial phase of the study where we model and optimize a system that has been benchmarked with beam measurements and simulation.
Keywords :
accelerator RF systems; beam handling equipment; electron guns; particle beam diagnostics; DC photoinjector designs; RF gun optimization; RF photoinjectors; SRF photoinjectors; beam quality; electron cooling devices; injector gun design; iterative process; light sources; particle accelerator; Design optimization; Electron accelerators; Electron beams; Light sources; Linear particle accelerator; Particle accelerators; Particle beam injection; Particle beams; Process design; Radio frequency;
Conference_Titel :
Particle Accelerator Conference, 2007. PAC. IEEE
Conference_Location :
Albuquerque, NM
Print_ISBN :
978-1-4244-0916-7
DOI :
10.1109/PAC.2007.4441071
