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An Anti-symmetric Lattice for High-intensity Rapid Cycling Synchrotrons
S. WANG
Y. Y. LEE
J.-Y. TANG
J. WEI
S. MACHIDA
S. TEPIKIAN
S.-X. FANG
G. REES
C. PRIOR
Q. QIN
出版
Brookhaven National Laboratory
, 2006
URL
http://books.google.com.hk/books?id=jVhQAQAACAAJ&hl=&source=gbs_api
註釋
Rapid cycling synchrotrons (RCSs) are used in many high power facilities like spallation neutron sources and proton drivers to accumulate and accelerate proton beams. In such accelerators, beam collimation plays a crucial role in reducing the uncontrolled beam loss. Furthermore, injection and extraction sections often need to reside in dispersion-free regions to avoid couplings; sizeable drift space is needed to house the RF accelerating cavities; long, uninterrupted straights are desired to ease injection tuning and to raise collimation efficiency. Finally, the machine circumference needs to be small to reduce construction costs. In this paper, we present a lattice satisfying these needs. The lattice contains a drift created by a missing dipole near the peak dispersion to facilitate longitudinal collimation. The compact FODO arc allows easy orbit, tune, coupling, and chromatic correction. The doublets provide long uninterrupted straights. The four-fold lattice symmetry separates injection, extraction, and collimation to different straights. This lattice is adopted for the China Spallation Neutron Source (CSNS) synchrotron [1].
