2024.04- 现在 张江实验室 研究员
2019.04-2024.03 亥姆霍兹柏林材料与能源中心 staff scientist
2014.09-2010.03 亥姆霍兹柏林材料与能源中心 博士后
2008.09-2014.06 中国科学技术大学 博士
2004.09-2009.06 合肥工业大学 学士
1.电子储存环物理
2.能量回收型直线加速器物理
1.上海市级重大专项 储存环全相干光源关键技术验证项目之高功率储存环全相干光源技术设计课题 课题负责人 2024.08 – 2026.07
[1]Kruschinski, A., Deng, X., Feikes, J., Hoehl, A., Klein, R., Li, J., ... & Chao, A. (2024). Confirming the theoretical foundation of steady-state microbunching. Communications Physics, 7(1), 160.
[2]Chaisueb, N., Abo-Bakr, M., Feikes, J., Goslawski, P., Kruschinski, A., Li, J., ... & Scholze, F. LATTICE OPTIONS FOR MLS II.
[3]Deng, X. J., Chao, A. W., Feikes, J., Hoehl, A., Huang, W. H., Klein, R., Kruschinski., A, Li, J., ... & Tang, C. X. (2023). Breakdown of classical bunch length and energy spread formula in a quasi-isochronous electron storage ring. Physical Review Accelerators and Beams, 26(5), 054001.
[4]Deng, X., Chao, A., Feikes, J., Hoehl, A., Huang, W., Klein, R., ... & Yan, L. (2021). Experimental demonstration of the mechanism of steady-state microbunching. Nature, 590(7847), 576-579.
[5]Li, J., Abo-Bakr, M., Goslawski, P., & Bai, Z. H. (2021, May). A Six-Bend-Achromat Lattice for a 2.5 GeV Diffraction-Limited Storage Ring. In 12th Int. Particle Accelerator Conf.(IPAC’21), Campinas, Brazil.
[6]Kuske, P., Li, J., & Aiba, M. (2020). Longitudinal acceptance measurement at an electron storage ring. Physical Review Accelerators and Beams, 23(3), 030701.
[7]Li, J., Feikes, J., Mertens, T., Petenev, Y., Ries, M., & Schälicke, A. (2019, June). Symplectic Tracking for the Robinson Wiggler. In 10th Int. Particle Accelerator Conf.(IPAC'19), Melbourne, Australia, 19-24 May 2019 (pp. 120-123). JACOW Publishing, Geneva, Switzerland.
[8]Li, J., Feikes, J., Goslawski, P., & Ries, M. (2017, May). Particle swarm optimization algorithm applied in online commissioning at the MLS and BESSY II. In Proc. 8th Int. Particle Accelerator Conf.(IPAC’17) (pp. 3700-3703).
[9]Li, J., Pei, Y. J., Shang, L., Feng, G. Y., Hu, T. N., Chen, Q. S., & Li, C. L. (2014). Beam dynamics simulations of the injector for a compact THz source. Chinese Physics C, 38(8), 088103.
[10]Li, J., Pei, Y. J., Hu, T. N., Chen, Q. S., Feng, G. Y., Shang, L., & Li, C. L. (2014). Design of an electron gun for terahertz radiation source. Chinese Physics C, 38(4), 047004.
