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CEPC Interaction Region design and Dynamic Aperture Optimization Yiwei Wang, Yuan Zhang, Dou Wang, Huiping Geng, Xiaohao Cui, Sha Bai, Tianjian Bian, Feng.

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Presentation on theme: "CEPC Interaction Region design and Dynamic Aperture Optimization Yiwei Wang, Yuan Zhang, Dou Wang, Huiping Geng, Xiaohao Cui, Sha Bai, Tianjian Bian, Feng."— Presentation transcript:

1 CEPC Interaction Region design and Dynamic Aperture Optimization Yiwei Wang, Yuan Zhang, Dou Wang, Huiping Geng, Xiaohao Cui, Sha Bai, Tianjian Bian, Feng Su, Jie Gao Institute of High Energy Physics (IHEP, Beijing) The first IHEP-BINP CEPC Accelerator Collaboration Workshop IHEP, 12-13 January 2016 Yiwei Wang12 Jan 20161

2 Outline Lattice design of the interaction region Optimization of the interaction region nonlinearity Summary Yiwei Wang12 Jan 20162

3 Yiwei Wang12 Jan 20163 Lattice of interaction region IR lattice design with local chromaticity correction with  x*=0.8m,  y*=3mm,  x=6.12nm,  =0.3%, L*=1.5m, 2IPs latest lattice for head-on collision: FFS_3.0mm_v3.0_Nov_2015 L*= 1.5m  y*= 3mm GQD0= -300T/m GQF1= 300T/m -I IPFTCCYCCX MT

4 Lattice of interaction region Dynamic aperture of whole ring is limited by the strong nonlinearity of IR due to small  y* – An example: DA with only ARC vs. DA with ARC + preliminary IR Optimization of the dynamic aperture – Local correction: optimization of IR nonlinearity – Global correction: with help of ARC (see Yuan Zhang’s talk) W/ ARC (20140930 by Huiping Geng) W/ ARC+IR (FFS_3.0mm_v0_Feb_2015 Yiwei Wang) without radiation damping, error of the magnets, synchrotron motion included Tracking with 3 times of damping time, Coupling factor  =0.003 for emitty  2% (1.5  x, 13.5  y)

5 Finite length effect of sextupoles Yiwei Wang12 Jan 20165 Add additional sextupoles next to the main one* – Compensate the finite length effect (Lsext=0.3m) *A.Bogomyagkov et al. http://arxiv.org/abs/0909.4872 k=1, S1/S2=-0.1

6 High order chromaticity Yiwei Wang12 Jan 20166 FFS_3.0mm_v1.0_Mar_2015 FFS_3.0mm_v2.2_Sep_2015 remove 2 quads in FT # additional sext at 1 st image point* tune phase of sextupoles # * K. Oide, SLAC-PUB-4806, Nov 1988. R. Brinkmann, DESY M-90-14, Nov 1990. # Yunhai Cai, private communication. K. Oide, SLAC-PUB-4806, Nov 1988.

7 Tune shift due to energy deviation Yiwei Wang12 Jan 20167 High order chromaticity (cont.) v1.0 v2.2 IR only, from IP to the entrance of FFSIR + ARC, periodic solution

8 High order chromaticity (cont.) Vertical dynamic aperture vs. dp/p From v1.0 -> v2.2: DA increased significantly for large off-momentum 20  y for  2% (green line) – W/O error of the magnets – Synchrotron motion included – Tracking with 3 times of damping time – Coupling factor  =0.003 for  y Yiwei Wang14-15 Sep 20158 x0=0.001  x 02-21

9 High order chromaticity (cont.) Yiwei Wang12 Jan 20169 v1.0 v2.2 Dynamic aperture for both planes v2.2: on momentum (20  x, 180  y), off momentum  2% (2.5  x, 20  y)

10 -I break down and high order dispersion Yiwei Wang12 Jan 201610 Many additional sextupoles in IR Idea from linear collider final focus* Six more sextupoles (3,4,5,8,9,10) to correct break down of –I transformation Three more sextupoles (2,6,7) help to correct the second order dispersion and so on -I IP FTCCYCCXMT 12345678910 FFS_3.0mm_v3.0_Nov_2015 *R. Brinkmann, DESY M-90-14, Nov 1990. L*=1.5m  y*=3mm

11 -I break down and high order dispersion (cont.) In practice, dynamic aperture is optimized directly with the additional sextupoles in IR – W/O error of the magnets – Synchrotron motion included – Tracking with ~1 times of damping time – Coupling factor  =0.003 for  y – Downhill simplex algorithm used* 19 points of dp/p from -2% to 2% Optimize with initial phases (phasex, phasey)=(0,0),(pi/2, pi/2), (0, pi/2), (pi/2, 0) Yiwei Wang12 Jan 201611 *K. Oide, private communication

12 Yiwei Wang13 Nov 201512 -I break down and high order dispersion (cont.) +(2,3,4,5) sextupoles -I 12345678910 FFS_3.0mm_v3.0_Nov_2015 L*=1.5m  y*=3mm

13 Yiwei Wang13 Nov 201513 -I break down and high order dispersion (cont.) -I 12345678910 FFS_3.0mm_v3.0_Nov_2015 L*=1.5m  y*=3mm +(2,3,4,5,6,7) sextupoles

14 Yiwei Wang13 Nov 201514 -I break down and high order dispersion (cont.) -I 12345678910 FFS_3.0mm_v3.0_Nov_2015 L*=1.5m  y*=3mm +(2,3,4,5,6,7,8,9,10) sextupoles

15 Radiation damping Dynamic aperture is optimized directly with the additional sextupoles in IR – W/O error of the magnets – Synchrotron motion and radiation damping included – Tracking with 1 times of damping time – Coupling factor  =0.003 for  y W/O damping: ~6.5  x  10  y for  2%W/ damping: ~9  x  20  y Yiwei Wang12 Jan 201615

16 Acknowledge Yunhai Cai, Demin Zhou, Katsunobu Oide, Kazuhito Ohmi, Yingshun Zhu, Ming Xiao, Gang Xu, Qing Qin, Yoshihiro Funakoshi, Yukiyoshi Ohnishi, Hiroshi Sugimoto Thanks for their kind help and beneficial discussions! Yiwei Wang14-15 Sep 201516

17 Summary To optimize the dynamic aperture of CEPC main ring – Local correction within IR have been tried DA incresed significantly, though some prospects needed to be check. Combine of local and global correction is under going Multi-object optimization is necessary to get a better solution and quick convergence. Yiwei Wang12 Jan 201617

18 Yiwei Wang12 Jan 201618 Thank you for your attention!

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