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End-to-End Energy Variation Study for Induction Radiography Accelerator
release_4snxgkun3bhpxhihf5q2vxkxbi
by
Yuan Hui Wu,
Yu-Jiuan Chen,
Volker RW Schaa,
Arduini, Gianluigi (Ed.),
Pranke, Juliana (Ed.),
Seidel, Mike (Ed.),
Lindroos, Mats (Ed.)
Published
by JACoW, Geneva, Switzerland.
2017 Volume IPAC2017, Denmark
Abstract
Energy variation study for beam transport from the entrance of a conceptual induction radiography accelerator to the x-ray target has been reported previously [1]. In this report, we have extended the study upstream to the injector. To achieve minimum emittance growth and to obtain a desired final beam size, we have developed three optimal tunes. Among them, one optimal tune, capable of supressing beam break-up instability and producing acceptable corkscrew motions, is used to study the energy variation effects on radiography performance. The study shows that ±3% energy variation is acceptable.
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