The RAON linear accelerator consists of an injector and a superconducting linear accelerator (SCL3). The injector is composed of an ECR ion source, LEBT, RFQ, and MEBT. The ECR ion source generates various ion beams (A/Q = 1~7.2) with an energy of 10 keV/u, and the RFQ accelerates them to 500 keV/u. The superconducting accelerator (SCL3) is composed of two types of superconducting accelerating cavities, QWR and HWR, and accelerates uranium beams up to 18.5 MeV/u. In last year’s beam commissioning of the superconducting linac using an argon beam, the measured energy was lower than expected; however, this issue has been resolved this year. In this presentation, we summarize the results of injector and superconducting accelerator beam commissioning performed this year, along with several improvements.
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Dong-O Jeon
(Institute for Basic Science)
Hyung Jin Kim
(Insititute for Basic Science)
JEONGIL HEO
(Institute for Basic Science)
Bum-Sik Park
(Institute for Basic Science/IRIS)
Jang Won KWON
(IBS)
Yujung Ahn
(Institute for Basic Science)
Dr
Chul Jin Choi
(Institute for Basic Science)
Eunhun IM
(Institute for Basic Science)
Sangyoon Bae
(IBS/IRIS)
Kyungtae Seol
(Institute for Basic Science)
Ki Taek Son
(IBS)
Mr
Do Yoon Lee
(Institute for Basic Science)
Dr
In Seok Hong
(Institute for Basic Science)
yoochul jung
(ibs)
Youngkwon Kim
(Institute for Rare Isotope Science, IBS)
Hyojae Jang
(Institute for Basic Science)
Heetae Kim
(Institute for Rare Isotope Science, Institute for Basic Science, Daejeon 34000, Republic of Korea)
Juwan Kim
(Institute for Basic Science)
Dr
Joonsun Kang
(Institute for Rare Isotope Science)
Mr
Hyungjoo Son
(Institute for Basic Science)
Dr
Chang Seok Seo
(Institute for Rare Isotope Science)
Yeonsei Chung
(RISP/IBS)
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