학술논문
Design of the RAON Accelerator Systems
Document Type
Article
Author
전동오; I. S. Hong; H. J. Kim; J. W. Kim; R. M. Bodenstein; 차혁진; S. J. Choi; 최숙; O. R. Choi; H. Do; B. H. Choi; C. J. Choi; J. Han; W. K. Han; M. O. Hyun; H. Jang; J. D. Joo; M. J. Joung; H. C. Jung; Y. C. Jung; 김도균; E. Kim; 김희태; J. H. Kim; J. Y. Kim; W. K. Kim; Y. Kim; M. Kim; M. J. Kim; J. H. Lee; K. W. Lee; M. K. Lee; G. T. Park; S. Ryu; I. Shin; J. H. Shin; J-S. Song; S. Yoon; K-H. Yi; C. C. Yun; A. Zaghloul; 김선기; S. Matlabjon; G. S. Park; J. B. Bahng; J. G. Hwang; 장시원; 김은산
Source
Journal of the Korean Physical Society, 65(7), pp.1010-1019 Oct, 2014
Subject
Language
English
ISSN
1976-8524
0374-4884
0374-4884
Abstract
The RAON is the name of the heavy ion accelerator facility under construction in Korea thatincludes the In-flight Fragment (IF) and Isotope Separation On-Line (ISOL) facilities to supportcutting-edge research in various science fields. The superconducting linac is the driver for the IFfacility that can accelerate beams from proton to uranium with 200 MeV/u, 400 kW (for uraniumbeam). A 70-MeV, 1-mA H− cyclotron is the driver for the ISOL facility and is followed by apost-accelerator consisting of s superconducting linac that can accelerate rare-isotope (RI) beamsand deliver them to experimental halls. These facilities provide high-intensity stable ion and rareisotope (RI) beams for domestic and international users. In this paper, design and prototypingefforts for the RAON accelerator systems are presented.