[1] Huang Nanshun, Deng Haixiao, Liu Bo, et al. Features and futures of X-ray free-electron lasers[J]. The Innovation, 2, 100097(2021).
[2] Pellegrini C, Marinelli A, Reiche S. The physics of X-ray free-electron lasers[J]. Reviews of Modern Physics, 88, 015006(2016).
[3] Hettel R. DLSR design and plans: an international overview[J]. Journal of Synchrotron Radiation, 21, 843-855(2014).
[4] Zhao Yu, Li Zhiping, Liu Weihang, . Physics issues of the diffraction-limited storage ring light source[J]. Chinese Science Bulletin, 65, 2587-2600(2020).
[5] Bilderback D H, Brock J D, Dale D S, et al. Energy recovery linac (ERL) coherent hard X-ray sources[J]. New Journal of Physics, 12, 035011(2010).
[6] Martensson N, Eriksson M. The saga of MAX IV, the first multi-bend achromat synchrotron light source[J]. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 907, 97-104(2018).
[7] Yin Lixin, Tai Renzhong, Wang Dong, et al. Progress and future of Shanghai Synchrotron Radiation Facility[J]. Journal of the Vacuum Society of Japan, 59, 198-204(2016).
[8] Tao Ye. Groundbreaking ceremony at the high energy photon source in Beijing[J]. Synchrotron Radiation News, 32, 40(2019).
[9] Jiao Yi, Xu Gang, Peng Yuemei, et al. Evolution of the lattice design f the High Energy Photon Source[C]Proceedings of the 9th International Particle Accelerat Conference. Vancouver, Canada, 2018.
[10] Project proposal of the BAPS[R]. 2012.
[11] Jiao Yi, Xu Gang, Cui Xiaohao, et al. The HEPS project[J]. Journal of Synchrotron Radiation, 25, 1611-1618(2018).
[12] Institute of High Energy Physics, HEPS preliminary design rept[R]. 2018.
[13] Jiao Yi. Latest physics design of the HEPS accelerator[J]. Radiation Detection Technology and Methods, 4, 399(2020).
[14] Jiao Yi, Chen Fusan, He Ping, et al. Modification and optimization of the storage ring lattice of the High Energy Photon Source[J]. Radiation Detection Technology and Methods, 4, 415-424(2020).
[15] Farvacque L, Carmignani N, Chavanne J, et al. A lowemittance lattice f the E. S. R. F. [C]Proceedings of the 4th International Particle Accelerat Conference. Shanghai, 2013: 7981.
[16] Jiao Yi, Cai Yunhai, Chao A W. Modified theoretical minimum emittance lattice for an electron storage ring with extreme-low emittance[J]. Physical Review Accelerators and Beams, 14, 054002(2011).
[17] Jiao Yi, Li Xiaoyu, Xu Gang. Perfmance comparison of different ultralow emittance unit cells[C]Proceedings of the 9th International Particle Accelerat Conference. Vancouver, Canada, 2018.
[18] Riemann B, Streun A. Low emittance lattice design from first principles: reverse bending and longitudinal gradient bends[J]. Physical Review Accelerators and Beams, 22, 021601(2019).
[19] Jiao Yi, Li Ming, Li Xiaoyu. Brightness dependence investigation optimizaiton f the HEPS[C]Proceedings of the 9th International Particle Accelerat Conference. Vancouver, Canada, 2018.
[20] Liuzzo S M, Carmignani N, Chavanne J, et al. Optics adaptations f bending mag beam lines at ESRF: sht bend, 2pole wiggler, 3pole wiggler[C]Proceedings of the 8th International Particle Accelerat Conference. Copenhagen, Denmark, 2017.
[21] Jiao Yi, Cui Xiaohao, Duan Zhe, et al. Beam dynamics study in the HEPS stage ring[C]Proceedings of the 10th International Particle Accelerat Conference. Melbourne, Australia, 2019.
[22] Li Xiaoyu, Jiao Yi, Lu Huihua, et al. Status of HEPS ion devices design[C]Proceedings of the 12th International Particle Accelerat Conference. Campinas, Brazil, 2021.
[23] Ji Fuhao, Chang Rui, Zhou Qiaogen, et al. Design and performance of the APPLE-Knot undulator[J]. Journal of Synchrotron Radiation, 22, 901-907(2015).
[24] Yang Yanwei, Li Xiaoyu, Lu Huihua. A practical design and field errors analysis of a merged APPLE–Knot undulator for High Energy Photon Source[J]. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 1011, 165579(2021).
[25] Li Xiaoyu, Tian Saike. Analysis of the influence of new ID model on Touschek life of stage ring V3 design[R]. HEPSACAPTN2020033V0, 2020
[26] Emery L, Bl M. Possible longterm improvements to the Advanced Photon Source[C]Proceedings of the 2003 Particle Accelerat Conference. Ptl, USA, 2003: 256258.
[27] Chen Jinhui, Shi Hua, Wang Lei, et al. Strip-line kicker and fast pulser R&D for the HEPS on-axis injection system[J]. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 920, 1-6(2019).
[28] Wang Lei, Chen Jinhui, Shi Hua, et al. A novel 5-cell strip-line kicker prototype for the HEPS on-axis injection system[J]. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 992, 165040(2021).
[29] Duan Zhe, Chen Jinhui, Guo Yuanyuan, et al. The swapout injection scheme f the High Energy Photon Source[C]Proceedings of the 9th International Particle Accelerat Conference. Vancouver, Canada, 2018.
[30] Xu Haisheng, Peng Yuemei, Wang Na. Studies of transverse single-bunch instabilities in booster synchrotrons[J]. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 940, 313-319(2019).
[31] Meng Cai, He Xiang, Jiao Yi, et al. Physics design of the HEPS LINAC[J]. Radiation Detection Technology and Methods, 4, 497-506(2020).
[32] Peng Yuemei, Duan Zhe, Guo Yuanyuan, et al. Design of the HEPS booster lattice[J]. Radiation Detection Technology and Methods, 4, 425-432(2020).
[33] Guo Yuanyuan, Wei Yuanyuan, Peng Yuemei, et al. The transfer line design for the HEPS project[J]. Radiation Detection Technology and Methods, 4, 440-447(2020).
[34] Zhao Yaliang, Duan Zhe, Ji Daheng, et al. First turn around strategy f HEPS[C]Proceedings of the 8th International Particle Accelerat Conference. Copenhagen, Denmark, 2017.
[35] Wang Bin, Duan Zhe, Ji Daheng, et al. Progress of the firstturn commissioning simulations f HEPS[C]Proceedings of the 12th International Particle Accelerat Conference. Campinas, Brazil, 2021.
[36] Ji Daheng, Cui Xiaohao, Duan Zhe, et al. Beam perfmance simulation with err effects crection on HEPS design[C]Proceedings of the 9th International Particle Accelerat Conference. Vancouver, Canada, 2018.
[37] Wu Lei, Zhou Ningchuang, Li Chunhua, et al. Design and test of the beam-based alignment sextupole experimental mover prototype for HEPS[J]. Radiation Detection Technology and Methods, 5, 570-575(2021).
[38] Ji Daheng, Jiao Yi, Duan Zhe. Err crection result with ion device f the HEPS[R]. HEPSACAPTN2021003V0, 2021
[39] Yan Fang, Xu Gang, Lin Guoping, et al. The design prototype test f the tunnel foundation of high energy photon source[C]Proceedings of the 11th Mechanical Engineering Design of Synchrotron Radiation Equipment Instrumentation. Chicago, IL, USA, 2021.
[40] Huang Xiyang, Jiao Yi, Wei Yuanyuan. Preliminary investigation of the noises updates on physics studies of FOFB in HEPS[C]Proceedings of the 12th International Particle Accelerat Conference. Campinas, Brazil, 2021.
[41] Huang Xiyang, Wei Yuanyuan. Summary of the FOFBonly simulations[R]. HEPSACAPTN2022009V0, 2022
[42] Wang Na, Tian Saike, Li Xiaoyu, et al. Development of the impedance model in HEPS[C]Proceedings of the 8th International Particle Accelerat Conference. Copenhagen, Denmark, 2017.
[43] Wang Na, Tian Saike, Wang Jiuqing. Impedance evaluation of masks in the HEPS stage ring[C]Proceedings of the 12th International Particle Accelerat Conference. Campinas, Brazil, 2021.
[44] Wang Na, Tian Saike, Wang Lei, et al. Impedance optimization and measurements of the injection stripline kicker[J]. Physical Review Accelerators and Beams, 24, 034401(2021).
[45] Zheng Hongjuan, Zhang Pei, Li Zhongquan, et al. Design optimization of a mechanically improved 499.8-MHz single-cell superconducting cavity for HEPS[J]. IEEE Transactions on Applied Superconductivity, 31, 3500109(2021).
[46] Zhang Pei, Zhang Xinying, Li Zhongquan, et al. Development and vertical tests of a 166.6 MHz proof-of-principle superconducting quarter-wave beta=1 cavity[J]. Review of Scientific Instruments, 90, 084705(2019).
[47] Wang Na, Xu Haisheng, Tian Saike, . Study of beam coupling impedance and beam collective effect in High Energy Photon Source[J]. Atomic Energy Science and Technology, 53, 1601-1606(2019).
[48] Xu Haisheng, Wang Na, Tian Saike. Collective beam instability caused by impedance in HEPS stage ring v3.1 lattice[R]. HEPSACAPTN2021042V0, 2021
[49] Xu Haisheng, Xu Jingye, Wang Na. Influences of harmonic cavities on single-bunch instabilities in electron storage rings[J]. Nuclear Science and Techniques, 32, 89(2021).
[50] Tian Saike, Wang Jiuqing, Xu Gang, et al. Intra-beam scattering studies for low emittance at BAPS[J]. Chinese Physics C, 39, 067001(2015).
[51] Xu Haisheng, Wang Na, Tian Saike, et al. Full ge beam prameters of the HEPS stage ring[R]. HEPSACAPTN2020027V1, 2021
[52] Cui Xiaohao, Jiao Yi, Zhao Yaliang. Beam loss simulations during beam dumping in HEPS[C]Proceedings of the 12th International Particle Accelerat Conference. Campinas, Brazil, 2021.
[53] Li Nan, Zhao Yaliang, Jiao Yi. Comparison simulation results of the collimat aperture in HEPS stage ring[C]Proceedings of the 12th International Particle Accelerat Conference. Campinas, Brazil, 2021.
[54] Zhao Yaliang, Jiao Yi, Li Chunhua. Summary of MPS threshold synchronous light extraction angle[R]. HEPSACAPTN2020026V0, 2020
[55] Li Chao, Li Chunhua. Design consideration of synchronous radiation masks in HEPS[R]. HEPSACAPTN2019019V0, 2019
[56] Ji Hongfei, Li Chunhua, Ji Daheng, et al. Calculation of the effect of synchronous radiation masks in HEPS stage ring[R]. HEPSACAPTN2021019V0, 2021
[57] Lu Xiaohan, Ye Qiang, Ji Hongfei, et al. Status of high level application development f HEPS[C]Proceedings of the 18th International Conference on Accelerat Large Experimental Physics Control Systems. Shanghai, China, 2021