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Chinese Physics, 2007, Vol. 16(8): 2343-2348    DOI: 10.1088/1009-1963/16/8/031
NUCLEAR PHYSICS Prev   Next  

International Linear Collider damping ring lattice design with two wiggler sections

Sun Yi-Peng(孙一鹏)a)b)† , Gao Jie(高杰)b), and Guo Zhi-Yu(郭之虞)a)
a Key Laboratory of Heavy Ion Physics (MOE) and School of Physics, Peking University, Beijing 100871, China; b Institute of High Energy Physics, Chinese Academy of Science, Beijing 100049, China
Abstract  The International Linear Collider (ILC), which is based on super-conducting RF acceleration technology, requires the damping rings to provide beams with extremely small equilibrium emittance, and large acceptance to ensure good injection efficiency for high-emittance, and high-energy spread beam from the positron source. In order to reduce the cost for ILC damping rings, an alternative lattice which is different from the baseline configuration design has been designed with modified FODO arc cells, and the total quadrupole number has been reduced by half. At the same time, to decrease the total cost involved in constructing access shafts needed to supply power, cryogenics etc. for the wigglers and other systems, the number of wiggler sections is decreased from 8 to 4, and further to 2. This new lattice has been optimized to have a good dynamic aperture. This alternative ILC damping ring lattice design will reduce the cost largely as compared with the baseline design.
Keywords:  ILC damping ring      FODO arc cell      wiggler sections      dynamic aperture  
Received:  10 October 2006      Revised:  27 December 2006      Accepted manuscript online: 
PACS:  29.20.db (Storage rings and colliders)  
  29.27.Ac (Beam injection and extraction)  
  29.27.Bd (Beam dynamics; collective effects and instabilities)  
Fund: Project supported by the National Natural Science Foundation of China (Grant No~10525525).

Cite this article: 

Sun Yi-Peng(孙一鹏), Gao Jie(高杰), and Guo Zhi-Yu(郭之虞) International Linear Collider damping ring lattice design with two wiggler sections 2007 Chinese Physics 16 2343

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