论文专著近年来发表主要文章:
24. H. Wu, Z.-W. Wang*, and J. Lan*, Antiferromagnetic skyrmion as a magnonic lens, Physical Review B 113, 174431 (2026). (同时被选为编辑推荐(Editors' suggestion)和亮点报道 (Featured in Physics),新闻报道“Twisting Spins into a Spin-Wave Lens”,网址https://physics.aps.org/articles/v19/s68) 23. Y. Zhang and J. Lan*, Magnonic radar for dynamic domain walls in synthetic antiferromagnets, Physical Review B 112, 174432 (2025). 22. H. Zhang, H. Wu, and J. Lan*, Ballistic magnon circulators with magnetic skyrmions, Chinese Physics B 34, 107503 (2025). 21. H. Wu and J. Lan*, Spin-wave vortex as a topological probe of magnetic textures, Physical Review B 112, 064410 (2025). 20. H. Wu, Z. Wang*, and J. Lan*, Spin wave reconstruction with ray magnonics, Physical Review B 112, 014428 (2025). 19. D. Zheng, Y. Li, C. Liu, J. Lan, C. Jin, Q. Wang, L. Zhang, G. Xi, B. Fang, C. Zhang, H. Algaidi, A. Chen, X. Liu, G. Yin, Z. Xu, J. Q. Xiao, A. Manchon, and X. Zhang, Manipulation of perpendicular magnetization via magnon current with tilted polarization, Matter 7, 3489 (2024). 18. X. Jiao, X. S. Wang, and J. Lan, Universal spin wave driven domain wall velocity in biaxial ferromagnets, Physical Review B 109, 094428 (2024). 17. Yu Liu, Jin Lan*, Geometric phase acquired by spin waves in antiferromagnetic wire with domains of noncoplanar magnetization, Physical Review B 108, L180407 (2023). 16. Xue Liang†, Jin Lan†, Guoping Zhao, Mateusz Zelent, Maciej Krawczyk, and Yan Zhou*, Bidirectional magnon-driven bimeron motion in ferromagnets, Physical Review B 108, 184407 (2023). 15. Hanxu Ai, Jin Lan*, Anatomy of spin-wave-driven magnetic texture motion via magnonic torques, Physical Review B 107, 054441 (2023) 14. Dongxing Zheng, Jin Lan, Bin Fang, Yan Li, Chen Liu, J. Omar Ledesma-Martin, Yan Wen, Peng Li, Chenhui Zhang, Yinchang Ma, Ziqiang Qiu, Kai Liu, Aurélien Manchon, Xixiang Zhang, High-efficiency Magnon-mediated Magnetization Switching in All-oxide Heterostructures with Perpendicular Magnetic Anisotropy, Advance Materials 34, 2203038 (2022) (影响因子32.9) 13. H. Wu, J. Lan*, Curvilinear manipulation of polarized spin wave, Physical Review B 105, 174427 (2022).
12. P. Li, L. Yang, J. Lan, R. Du, and J. Chen, A Second-Order Semi-Implicit Method for the Inertial Landau-Lifshitz-Gilbert Equation, Numerical Mathematics: Theory, Methods and Applications 16, 182 (2023).
11. Jin Lan*, Jiang Xiao*, Spin wave driven domain wall motion in easy-plane ferromagnets: a particle perspective, Physical Review B 106, L020404 (2022). 9. Feiyang Ye, Jin Lan*, Magnetically switchable spin wave retarder with $90^\circ$ antiferromagnetic domain wall, Physical Review B 104, L180401 (2021).
10. Gongzheng Chen, Jin Lan*, Tai Min, Jiang Xiao*, Narrow waveguide based on ferroelectric domain wall, Chinese Physics Letters 38, 87701 (2021).
8. Jin Lan, Weichao Yu, Jiang Xiao*, Geometric magnonics with chiral magnetic domain walls, Physical Review B 103, 214407 (2021). 7. Jin Lan, Jiang Xiao*, Skew scattering and side jump of spin wave across magnetic texture, Physical Review B 103, 054428 (2021). 6. Weichao Yu, Jin Lan, Jiang Xiao*, Magnetic Logic Gate Based on Polarized Spin Waves, Physical Review Applied 13, 024055 (2020). -------------------------------------(天大入职)-------------------------------------------------------- 5. Weichao Yu, Jin Lan*, Jiang Xiao*, Antiferromagnetic domain wall motion driven by polarized spin waves, Physical Review B 98, 144442 (2018) (共同通信;引用40+).
4. Jin Lan†, Weichao Yu†, Jiang Xiao*, Antiferromagnetic domain wall as spin wave polarizer and retarder, Nature Communications 8, 178 (2017) . (《自然》子刊,影响因子11.9; 引用60+)
3. David Ellsworth†, Lei Lu†, Jin Lan et al, Photo-spin-voltaic effect, Nature Physics 12, 861 (2016) (第三作者,理论主要贡献者). (《自然》子刊,影响因子20.1)
2. Weichao Yu†, Jin Lan†, Ruqian Wu, Jiang Xiao*, Magnetic Snell’s law and spin-wave fiber with Dzyaloshinskii-Moriya interaction, Physical Review B (Rapid Communications) 94, 140410(2016) (共同一作).
1. Jin Lan†, Weichao Yu†, Ruqian Wu, Jiang Xiao*, Spin-wave diode, Physical Review X 5, 041049 (2015).(与Physical Review Letters并列为APS核心期刊,影响因子12.2; 引用100+)
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