个人简介
姜伯承,重庆大学超瞬态装置实验室 副主任 研究员,长期从事同步辐射光源的研究。参与过上海光源国家重大科学工程的设计、建设、运行。参与超高分辨宽能段光电子实验系统、蛋白质科学研究(上海)设施、基于上海同步辐射光源的能源环境新材料原位电子结构综合研究平台(Sip.ME2)等用户线站的建设,负责高压衍射和高压谱学线先期启动项目的研发,2014~2022担任上海光源线站工程加速器分总体。主持上海市项目:储存环全相干光源(五代光源)预研项目可行性研究,储存环全相干光源(五代光源)预研项目初步设计。
学习工作经历
1998.9-2002.7 清华大学工程物理系,本科。
2002.9-2007.5 中国科学院上海应用物理研究所,博士。
2007.7-2009.12 中国科学院上海应用物理研究所,助理研究员。
2009.12-2014.12 中国科学院上海应用物理研究所,副研究员。
2010.1-2011.1 美国Argonne实验室高能物理部,访问学者。
2014.12-2019.12 中科院上海应用物理研究所/高等研究院,研究员。
2019.12-2022.8 中科院上海高等研究院,研究员。
2020.12-2022.8 中科院上海高等研究院上海光源中心加速器物理与激光技术部,副主任。
2022.8-至今 重庆大学超瞬态装置实验室。
研究方向
加速器物理,自由电子激光,同步辐射
学术兼职
IPAC19,IPAC20,国际加速器大会科学建议委员会委员。
2016-2017,浦东新区科技发展基金专家。
2020-至今 , 上海市核学会第十一届理事会理事。
2022.8- 至今 ,第九届《核技术》编委。
主要成果
代表论文
1. Longitudinal Coupled Bunch Instability in Fractionally Filled Storage Rings, High Energy Physics and Nuclear Physics, 2004.11. p1209-1213
2. Injection Section impedance for the SSRF, High Energy Physics and Nuclear Physics, 2006.ST. p22-24
3. Study of Touschek Lifetime in SSRF Storage Ring, High Energy Physics and Nuclear Physics, 2006.7, p693-698
4. Simulation of a Transverse Feedback System for the SSRF Storage Ring, High Energy Physics and Nuclear Physics, 2007.10, p956-961.
5. Observation of beam instability in the SSRF storage ring, Chinese Physics C, 2009.33(Z2), p75-77
6. Investigation of fast ion instability in SSRF, Nuclear Instrument and Methods in Physics Research A, 614 (2010), 331-334
7. Emittance-Exchange-Based High Harmonic Generation Scheme for a Short-Wavelength Free Electron Laser, B. Jiang, J.G. Power, et al., Phys. Rev. Lett. 106, 114801 (2011)
8. Formation of a novel shaped bunch to enhance transformer ratio in collinear wakefield accelerators,B.Jiang, C. Jing, et al., Phys. Rev. ST Accel. Beams 15, 011301 (2012)
9. 自由电子激光(综述),姜伯承,邓海啸,科学杂志2012,64(1)
10. 上海光源储存环恒流注入束流安全性模拟,姜伯承等,强激光与粒子束,2013,25(985-988)
11. Generation of energy bands in the electron beam with an asymmetric chicane-type emittance exchange beam line, Bo-Cheng Jiang, Zhen-tang Zhao, Chao Feng, Nuclear Instruments and Methods in Physics Research A 764 (2014) 48–52.
12. Transverse multibunch instabilities for two bunch trains on separated orbits, B. C. Jiang, et al., Phys. Rev. ST Accel. Beams 17, 040703 (2014)
13. Using a double-frequency RF system to facilitate on-axis beam accumulation in a storage ring, Nuclear Instruments and Methods in Physics Research A 814 (2016) 1-5.
14. Using a Bessel light beam as an ultrashort period helical undulator, B. C. Jiang, et al., Phys. Rev. Accel. Beams, 20, 070701 (2017)
15. Longitudinal injection scheme for an ultra low emittance storage ring light source with a sine wave kicker, Kun Wang, et al., Radiation Detection Technology and Methods (2019)3:61
16. Extremely bright coherent synchrotron radiation production in a diffraction-limited storage ring using an angular dispersion-induced microbunching scheme, Changliang Li, Chao Feng, Bocheng Jiang, Phys. Rev. Accel. Beams, 23, 110701 (2020).
17. Lattice design for angular dispersion enhanced microbunching in storage rings, C. Li, et al., Journal of Instrumentation, 16 P03004.
18. A synchrotron-based kilowatt-level radiation source for EUV lithography, Bocheng Jiang, et al., Scientific Reports (2022) 12:3325.
19. 储存环全相干光源, 姜伯承,唐传祥,冯超,邓海啸,李任恺,强激光与粒子束, 2022, 34: 000000
20. A slow orbit feedback algorithm based on expanded response matrix for SSRF storage ring, Bocheng Jiang, Hanghua Xu, Kun Wang, Radiation Detection Technology and Methods (2022), https://doi.org/10.1007/s41605-022-00352-2
研究生培养
毕业博士研究生1名; 毕业硕士研究生2名。
联系方式
email:jiangbocheng@cqu.edu.cn