代表性学术论文:
1. Li, F., Dalichaouch, T. N., Pierce, J. R., Xu, X., Tsung, F. S., Lu, W., Joshi, C., & Mori, W. B. (2022). Ultra-bright Electron Bunch Injection in a Plasma Wakefield Driven by a Superluminal Flying Focus Electron Beam. Physical Review Letters, 128, 174803.
2. Li, F., Hua, J. F., Xu, X. L., Zhang, C. J., Yan, L. X., Du, Y. C., Huang, W. H., Chen, H. B., Tang, C. X., Lu, W., Joshi, C., Mori, W. B., & Gu, Y. Q. (2013). Generating high-brightness electron beams via ionization injection by transverse colliding lasers in a plasma wakefield accelerator. Physical Review Letters, 111(1), 015003
3. Nie, Z., Li, F., Morales, F., Patchkovskii, S., Smirnova, O., An, W., Nambu, N., Matteo, D., Marsh, K. A., Tsung, F., Mori, W. B., & Joshi, C. (2021). In Situ Generation of High-Energy Spin-Polarized Electrons in a Beam-Driven Plasma Wakefield Accelerator. Physical Review Letters, 126(5), 054801.
4. Li, F., Miller, K. G., Xu, X., Tsung, F. S., Decyk, V. K., An, W., Fonseca, R. A., & Mori, W. B. (2021). A new field solver for modeling of relativistic particle-laser interactions using the particle-in-cell algorithm. Computer Physics Communications, 258.
5. Li, F., An, W., Decyk, V. K., Xu, X., Hogan, M. J., & Mori, W. B. (2021). A quasi-static particle-in-cell algorithm based on an azimuthal Fourier decomposition for highly efficient simulations of plasma-based acceleration: QPAD. Computer Physics Communications, 261, 107784
6. Li, F., Decyk, V. K., Miller, K. G., Tableman, A., Tsung, F. S., Vranic, M., Fonseca, R. A., & Mori, W. B. (2021). Accurately simulating nine-dimensional phase space of relativistic particles in strong fields. Journal of Computational Physics, 438, 110367.
7. Li, F., An, W., Tsung, F. S., Decyk, V. K., & Mori, W. B. (2022). Efficient modeling of laser wakefield accelerators using the ponderomotive guiding center algorithm in an azimuthal mode decomposition based quasi-static particle-in-cell code.
8. Nie, Z., Li, F., Morales, F., Patchkovskii, S., Smirnova, O., An, W., Zhang, C., Wu, Y., Nambu, N., Matteo, D., Marsh, K. A., Tsung, F., Mori, W. B., & Joshi, C. (2022). Highly spin-polarized multi-GeV electron beams generated by single-species plasma photocathodes. Physical Review Research, 4(3), 033015.
9. Li, F., Wu, Y. P., Nie, Z., Guo, B., Zhang, X. H., Huang, S., Zhang, J., Cheng, Z., Ma, Y., Fang, Y., Zhang, C. J., Wan, Y., Xu, X. L., Hua, J. F., Pai, C. H., Lu, W., & Gu, Y. Q. (2018). On the feasibility of sub-100 nm rad emittance measurement in plasma accelerators using permanent magnetic quadrupoles. Plasma Physics and Controlled Fusion, 60(1), 14029.
10. Li, F., Nie, Z., Wu, Y. P., Guo, B., Zhang, X. H., Huang, S., Zhang, J., Cheng, Z., Ma, Y., Fang, Y., Zhang, C. J., Wan, Y., Xu, X. L., Hua, J. F., Pai, C. H., Lu, W., & Mori, W. B. (2018). Transverse phase space diagnostics for ionization injection in laser plasma acceleration using permanent magnetic quadrupoles. Plasma Physics and Controlled Fusion, 60(4), 44007.
11. Li, F., Yu, P., Xu, X., Fiuza, F., Decyk, V. K., Dalichaouch, T., Davidson, A., Tableman, A., An, W., Tsung, F. S., Fonseca, R. A., Lu, W., & Mori, W. B. (2017). Controlling the numerical Cerenkov instability in PIC simulations using a customized finite difference Maxwell solver and a local FFT based current correction. Computer Physics Communications, 214, 6–17.
12. Li, F., Zhang, C. J., Wan, Y., Wu, Y. P., Xu, X. L., Hua, J. F., Pai, C. H., Lu, W., Gu, Y. Q., Mori, W. B., & Joshi, C. (2016). Low-energy-spread laser wakefield acceleration using ionization injection with a tightly focused laser in a mismatched plasma channel. Plasma Physics and Controlled Fusion, 58(3), 34004.
13. Xu, X. L., Li, F., An, W., Dalichaouch, T. N., Yu, P., Lu, W., Joshi, C., & Mori, W. B. (2017). High quality electron bunch generation using a longitudinal density-tailored plasma-based accelerator in the three-dimensional blowout regime. Physical Review Accelerators and Beams, 20(11), 111303.
14. Xu, X., Li, F., Tsung, F. S., Miller, K. G., Yakimenko, V., Hogan, M. J., Joshi, C., and Mori, W. B.. Generation and acceleration of high brightness electrons beams bunched at x-ray wavelengths using plasma-based acceleration. Nature Communications, 13 (1), 1-8, 2022
15. Decyk, V. K., Mori, W. B., Li, F. (2023). An analytic Boris pusher for plasma simulation. Computer Physics Communications, 282, 108559.
16. Xu, X., Li, F., Tsung, F. S., Dalichaouch, T. N., An, W., Wen, H., Decyk, V. K., Fonseca, R. A., Hogan, M. J., & Mori, W. B. (2020). On numerical errors to the fields surrounding a relativistically moving particle in PIC codes. Journal of Computational Physics, 413, 109451.