Author:
He Tao,Sun Zhenbiao,Zhang Tong,Liu Guimin,Ji Ruimin,Lin Chuntao
Abstract
Abstract
The Shenzhen innovation light source facility (SILF) is a
fourth generation of medium energy synchrotron radiation light
source, which focuses on supporting the development of the domestic
core industries, basic science frontier research and major strategic
requirement, such as integrated circuits, biomedicine, advanced
materials and advanced manufacturing. With the Shenzhen Municipal
Government's approval of the SILF project proposal on Sep10 2020,
the feasibility study of the SILF was completed in 2022, and the
preliminary design of the SILF are in progress. The accelerator
complex is composed of the 200 MeV linac, the 0.2–3.0 GeV
booster and the 3.0 GeV storage ring. The circumference of the
storage ring is 696.0 m, which includes 28 hybrid seven-bend
achromat lattice periodic units to achieve the emittance below
100 pm·rad. The detailed physics design of the SILF storage
ring will be presented in this paper.
Subject
Mathematical Physics,Instrumentation
Reference26 articles.
1. The MAX IV storage ring project
2. Commissioning of the hybrid multibend achromat lattice at the European Synchrotron Radiation Facility;Raimondi;Phys. Rev. Accel. Beams,2021
3. Sirius Commissioning Results and Operation Status;Liu,2021
4. The HEPS project;Jiao;J. Synchrotron Radiat.,2018
5. Status of the APS-U Project;Hettel,2021
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