ouble-mini-<i>β<sub>y</sub></i> optics design in the SSRF storage ring
ouble-mini-<i>β<sub>y</sub></i> optics design in the SSRF storage ring
Shanghai Synchrotron Radiation Facility (SSRF) will implement its Phase II beamline project in the near future. Two long straight sections of the SSRF storage ring will be installed with dual-canted insertion devices in this project. Double-mini-βy optics in the long straight sections is designed and optimized in order to obtain high brightness and good machine performance. In this paper, the results are summarized. The Phase II project proposes a lattice upgrade of super-bend, and the double-mini-βy optics with this upgraded lattice is presented, too.
Shanghai Synchrotron Radiation Facility (SSRF) will implement its Phase II beamline project in the near future. Two long straight sections of the SSRF storage ring will be installed with dual-canted insertion devices in this project. Double-mini-βy optics in the long straight sections is designed and optimized in order to obtain high brightness and good machine performance. In this paper, the results are summarized. The Phase II project proposes a lattice upgrade of super-bend, and the double-mini-βy optics with this upgraded lattice is presented, too.
LENG Yong-Bin、TIAN Shun-Qiang、JIANG Bo-Cheng、ZHAO Zhen-Tang
dx.doi.org/10.13538/j.1001-8042/nst.25.030101
加速器物理学
Muonwo-color laserOverdense plasmaMuon sticking to alpha
Muonwo-color laserOverdense plasmaMuon sticking to alpha
LENG Yong-Bin,TIAN Shun-Qiang,JIANG Bo-Cheng,ZHAO Zhen-Tang.ouble-mini-<i>β<sub>y</sub></i> optics design in the SSRF storage ring[EB/OL].(2023-06-18)[2025-08-25].https://chinaxiv.org/abs/202306.00495.点此复制
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