Requirements to beam current and type of accelerated particles become more stringent in the case of application of accelerators in industry and medicine. Certain specific issues arise upon application of low energy accelerators, such as selection of efficient accelerating structure, the simplicity of fabrication, moderate cost, low occupied space, and low operation costs. Increase in beam intensity of accelerated particles only by virtue of improved acceleration and focusing has certain limits. Technical and economic performances of linear accelerators can be improved, for instance, by conversion from conventional accelerating system to a multichannel system. This article discusses the issue of the electron wiring harness in small size accelerator aimed at efficient use in industry and medicine where the facility dimensions are of high importance. Increase in beam intensity of accelerated particles by means of improvement of acceleration and focusing depends greatly on the procedure of prediction of particle dynamics. A simple procedure of prediction is proposed, the results of the study of particle dynamics in standing wave accelerators are given which confirm the possibility of maximum beam wiring harness.
CITATION STYLE
Shilov, V. K., Filatov, A. N., & Novozhilov, A. E. (2019). Acceptances of accelerating sections and maximum beam emittances at output of electron linear accelerators. International Journal of Recent Technology and Engineering, 8(1), 146–149.
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