E-resources
Peer reviewed
-
Jeon, D.; Hong, I. S.; Kim, H. J.; Kim, J. W.; Bodenstein, R. M.; Cha, H. J.; Choi, S. J.; Choi, S.; Choi, O. R.; Do, H.; Choi, B. H.; Choi, C. J.; Han, J.; Han, W. K.; Hyun, M. O.; Jang, H.; Joo, J. D.; Joung, M. J.; Jung, H. C.; Jung, Y. C.; Kim, D. G.; Kim, E.; Kim, H.; Kim, J. H.; Kim, J. Y.; Kim, W. K.; Kim, Y.; Kim, M.; Kim, M. J.; Lee, J. H.; Lee, K. W.; Lee, M. K.; Park, G. T.; Ryu, S.; Shin, I.; Shin, J. H.; Song, J. -S.; Yoon, S.; Yi, K. -H.; Yun, C. C.; Zaghloul, A.; Kim, S. K.; Matlabjon, S.; Park, G. S.; Bahng, J. B.; Hwang, J. G.; Jang, S. W.; Kim, E. S.
Journal of the Korean Physical Society, 10/2014, Volume: 65, Issue: 7Journal Article
The RAON is the name of the heavy ion accelerator facility under construction in Korea that includes the In-flight Fragment (IF) and Isotope Separation On-Line (ISOL) facilities to support cutting-edge research in various science fields. The superconducting linac is the driver for the IF facility that can accelerate beams from proton to uranium with 200 MeV/u, 400 kW (for uranium beam). A 70-MeV, 1-mA H − cyclotron is the driver for the ISOL facility and is followed by a post-accelerator consisting of s superconducting linac that can accelerate rare-isotope (RI) beams and deliver them to experimental halls. These facilities provide high-intensity stable ion and rare isotope (RI) beams for domestic and international users. In this paper, design and prototyping efforts for the RAON accelerator systems are presented.
