雷汉伦,2010年6月南京大学天文系本科毕业,2015年6月获得0567拉斯维加斯天文学博士学位(天体测量与天体力学专业),此后留校任助理研究员(专职科研岗),于2018年6月晋升为副教授。2019年起担任硕士生导师,2022年起担任博士生导师。2017-2018年在意大利罗马大学航天工程系做访问学者(留学基金委资助)。获“南京大学优秀博士论文”(2016年),南京大学“青年教师优秀教学奖”(2022年),入选国家级青年人才计划(2024年)。编著教材《摄动方法与理论》(包含上、下册),2024年12月在南京大学出版社出版。研究方向为摄动理论及应用、航天器轨道力学及小天体热物理特性与动力学。
《经典控制理论》(本科生)
《摄动方法与理论》(本科生、研究生)
《现代天体力学导论》(本科生、研究生)。
一、研究方向
1、摄动理论及应用(研究内容:摄动函数展开、哈密顿动力学、共振动力学、ZLK机制、潮汐效应、长期演化、恒星和行星倾斜角起源与演化)
以人造卫星、太阳系小天体、行星、恒星、黑洞等系统为研究对象,围绕摄动函数展开、哈密顿与共振动力学等核心内容,运用 Lie 级数变换、平均化理论、绝热近似等摄动处理方法,解析 ZLK 机制、潮汐耗散对天体长期演化及恒星和行星倾斜角起源与演化的作用。研究揭示轨道翻转的动力学本质,完善摄动分析理论框架,为系外行星研究、小行星探测提供关键理论支撑,丰富天体力学核心体系,推动该学科理论前沿发展与航天动力学应用。
2、航天器轨道力学(研究内容:平动点动力学、空间流形动力学、低能探测轨道、小推力轨道优化、地月及行星际空间轨道设计)
以地月空间及行星际空间航天器为研究对象,聚焦平动点、空间流形动力学等核心内容,运用不变流形理论、最优控制方法开展低能轨道设计与小推力轨道优化研究。揭示复杂引力场下航天器轨道演化规律,为深空探测、小行星探测任务提供关键轨道设计方案,完善航天动力学理论体系,推动轨道力学的工程化应用与前沿发展。
3、小天体热物理与动力学(研究内容:热物理AI建模、非引力效应、轨旋耦合、小行星轨道特性)
以小行星、彗星等太阳系小天体为研究对象,融合热物理 AI 建模、动力学分析方法,探究彗星活动、太阳系天体起源与演化、小天体非引力效应、轨-旋耦合、双小行星系统起源与演化等关键科学问题,支撑小行星探测工程实践。研究突破传统数值建模效率瓶颈,实现小天体热物理过程的高精度仿真,为揭示小天体演化规律、精准预测近地小天体轨道提供核心理论与技术支撑,丰富太阳系动力学研究体系,为我国小行星探测任务的轨道设计与风险评估提供理论基础。
二、指导研究生
1、黄秀敏,2021级硕士生,2024年6月毕业。获南京大学优秀硕士学位论文将。
2、赵舜景,2022级硕士生,2024级博士生。获南京大学优秀本科毕业论文奖。
3、高豪,2024级硕士生,2026级博士生。获南京大学优秀本科毕业论文奖。
4、冷筱妍,2025级硕士生。
5、李文彬,2025级硕士生。
一、专著与教材
1.雷汉伦.《摄动方法与理论》(上、下册),南京大学出版社,2024年12月,764页(113万字).
书中的勘误(持续更新中)见 摄动方法与理论勘误
二、发表文章
□ Leng X, Lei H*. High-order expansions of multi-revolution elliptic Halo orbits in the elliptic restricted three-body problem. Celestial Mechanics and Dynamical Astronomy, 2026. arXiv:2601.06563.
□ Gao H, Lei H*. Eccentric von Zeipel–Lidov–Kozai effects under mildly hierarchical triple systems: Influence of Brown corrections upon orbit flipping. Monthly Notices of the Royal Astronomical Society, 2025. https://doi.org/10.1093/mnras/staf1243
□ Lei H*, Grishin E. Extensions of Brown Hamiltonian–II. Analytical study on the modified von Zeipel–Lidov–Kozai effects. Monthly Notices of the Royal Astronomical Society, 2025. https://doi.org/10.1093/mnras/staf1171
□ Lei H*, Grishin E. Extensions of Brown Hamiltonian-I. A high-accuracy model for von Zeipel-Lidov-Kozai oscillations. Monthly Notices of the Royal Astronomical Society, 2025, 540, 2422–2431.
□ Zhao S, Shi X*, Lei H*. ThermoONet: Deep learning-based small-body thermophysical network-Applications to modeling the water activity of comets. Astronomy & Astrophysics, 2025, 698, A184.
□ 高豪,赵舜景,廖新浩,雷汉伦*. 小行星光变曲线分析及形状参数反演. 天文学报,2025. In press.
□ Cinelli M*, Ortore E, Lei H, Circi C. On the dynamics of a probe in the vicinity of a binary asteroid. Advances in space research, 2025. In press.
□ Zhao S, Lei H*. Lie-series transformations and applications to construction of analytical solution. Nonlinear Dynamics, 2025, 113, 2183-2198.
□ Jian Li*, Zhihong Jeff Xia*, Lei H, Nikolaos Georgakarakos, Fumi Yoshida, Xin Li. Resonant amplitude distribution of the Hilda asteroids and the free-floating planet flyby scenario. Icarus, 2025, 425:116340.
□ Lei H*. Dynamical structures associated with high-order and secondary resonances in the spin-orbit problem. The Astronomical Journal, 2024, 167(3): 121.
□ Lei H*, Gong Y*, Dynamical structures of misaligned circumbinary planets under hierarchical three-body systems, Monthly Notices of the Royal Astronomical Society, 2024,532(2):1580-1597.
□ Lei H*. Spin-orbit coupling of the primary body in a binary asteroid system. Celestial Mechanics and Dynamical Astronomy, 2024, 136:37.
□ Lei H*. Spin-orbit coupling of the ellipsoidal secondary in a binary asteroid system. The Astronomical Journal, 2024,168:146.
□ Zhao S., Lei H*, Ortore E. et al. Analytical investigation about long-lifetime science orbits around Galilean moons. Celestial Mechanics and Dynamical Astronomy, 2024, 136, 14.
□ Zhao S, Huang X, Lei H*. ZLK secondary resonances can enhance the excitation of planetary eccentricity. Astronomy & Astrophysics, 2024, 689:A99.
□ Zhao S, Lei H*, Shi X. Deep operator neural network applied to efficient computation of asteroid surface temperature and the Yarkovsky effect. Astronomy & Astrophysics, 2024, 691, A224.
□ Huang X, Lei H*. Dynamical Structures under Nonrestricted Hierarchical Planetary Systems with Different Mass Ratios. The Astronomical Journal, 2024, 167: 234.
□ Lu R, Lei H, Zhou LY*. On the Co-orbital Motion of Any Inclination. Chinese Astronomy and Astrophysics, 2024, 48(1): 142-160.
□ 张名艺,雷汉伦*. 高倾角共振小天体长期演化的哈密顿模型. 中国科学:物理学 力学 天文学,2024.
□ Lei H*, Gong Y. Secular dynamics of stellar spin driven by planets inside Kozai–Lidov resonance. Monthly Notices of the Royal Astronomical Society, 2023: stad1750.
□ Li J*, Lawler S, Lei H. A study of the high-inclination population in the Kuiper belt–IV. High-order mean motion resonances in the classical region. Monthly Notices of the Royal Astronomical Society, 2023, 523(4): 4841–4854.
□ Cinelli M*, Ortore E, Circi C, Lei H et al. Science Orbits with an Inner Disturbing Body and an Outer Disturbing Body. Journal of Guidance, Control, and Dynamics, 2023, 46(6): 1206-1211.
□ 鲁瑞, 雷汉伦, 周礼勇*. 任意倾角的共轨运动研究. 天文学报, 2023, 64(5): 50.
□ Lei H*. A Systematic Study about Orbit Flips of Test Particles Caused by Eccentric Von Zeipel–Lidov–Kozai Effects. The Astronomical Journal, 2022, 163(5): 214.
□ Lei H*, Gong Y. Dynamical essence of the eccentric von Zeipel-Lidov-Kozai effect in restricted hierarchical planetary systems. Astronomy & Astrophysics, 2022, 665: A62.
□ Lei H*, Li J, Huang X, et al. The Von Zeipel–Lidov–Kozai Effect inside Mean Motion Resonances with Applications to Trans-Neptunian Objects. The Astronomical Journal, 2022, 164(3): 74.
□ Lei H*, Huang X. Quadrupole and octupole order resonances in non-restricted hierarchical planetary systems. Monthly Notices of the Royal Astronomical Society, 2022, 515(1): 1086-1103.
□ Huang X, Lei H*. Orbital Flips Caused by the Eccentric Von Zeipel–Lidov–Kozai Effect in Nonrestricted Hierarchical Planetary Systems. The Astronomical Journal, 2022, 164(6): 232.
□ Lei H*, Ortore E, Circi C. Secular dynamics of navigation satellites in the MEO and GSO region. Astrodynamics, 2022: 1-18.
□ Wang W, Lei H, Mengali G, et al. Along-track boundedness condition for spacecraft relative motion around a slowly rotating asteroid. IEEE Transactions on Aerospace and Electronic Systems, 2022, 59(1): 497-506.
□ Cinelli M*, Lei H, Ortore E, et al. Probe lifetime around natural satellites with obliquity. Astrodynamics, 2022, 6(4): 429-439.
□ Shi X*, Castillo-Rogez J, Hsieh H, et al.(含Lei H) GAUSS-genesis of asteroids and evolution of the solar system: A sample return mission to Ceres. Experimental Astronomy, 2022: 1-32.
□ Lei H*. A new expansion of planetary disturbing function and applications to interior, co-orbital and exterior resonances with planets. Research in Astronomy and Astrophysics, 2021, 21(12): 311.
□ Lei H*. Secular resonance of inner test particles in hierarchical planetary systems. Monthly Notices of the Royal Astronomical Society, 2021, 506(2): 1879-1888.
□ Lei H*, Li J. Dynamical structures of retrograde resonances: analytical and numerical studies. Monthly Notices of the Royal Astronomical Society, 2021, 504(1): 1084-1102.
□ Lei H*. Structures of secular resonances for inner test particles in hierarchical planetary systems. Celestial Mechanics and Dynamical Astronomy, 2021, 133(9): 40.
□ Li M, Lei H, Huang Y, et al. Flip mechanism of Jupiter-crossing orbits in the non-hierarchical triple system. Monthly Notices of the Royal Astronomical Society, 2021, 502(4): 5584-5592.
□ Wang W, Wu D, Lei H, et al. Fuel-optimal spacecraft cluster flight around an ellipsoidal asteroid. Journal of Guidance, Control, and Dynamics, 2021, 44(10): 1875-1882.
□ Li J, Lei H, Xia Z J. Apsidal asymmetric-alignment of Jupiter Trojans. Monthly Notices of the Royal Astronomical Society, 2021, 505(2): 1730-1741.
□ Lei H*, Li J. Multiharmonic Hamiltonian models with applications to first-order resonances. Monthly Notices of the Royal Astronomical Society, 2020, 499(4): 4887-4904.
□ Lei H*. Dynamical models for secular evolution of navigation satellites. Astrodynamics, 2020, 4: 57-73.
□ Guo Q, Xu B, Lei H. Periodic Attitudes of Libration Point Spacecrafts in the Earth-Moon System. Mathematical Problems in Engineering, 2020.
□ Lei H*, Circi C, Ortore E, et al. Attitude stability and periodic attitudes of rigid spacecrafts on the stationary orbits around asteroid 216 Kleopatra. Advances in Space Research, 2019, 63(2): 1017-1037.
□ Lei H*. A semi-analytical model for secular dynamics of test particles in hierarchical triple systems. Monthly Notices of the Royal Astronomical Society, 2019, 490(4): 4756-4769.
□ Lei H*. Three-dimensional phase structures of mean motion resonances. Monthly Notices of the Royal Astronomical Society, 2019, 487(2): 2097-2116.
□ Lei H*, Circi C, Ortore E. Secular dynamics around uniformly rotating asteroids. Monthly Notices of the Royal Astronomical Society, 2019, 485(2): 2731-2743.
□ Lei H*, Circi C, Ortore E, et al. Quasi-frozen orbits around a slowly rotating asteroid. Journal of Guidance, Control, and Dynamics, 2019, 42(4): 794-809.
□ Circi C, D'Ambrosio A, Lei H, et al. Global mapping of asteroids by frozen orbits: The case of 216 kleopatra. Acta Astronautica, 2019, 161: 101-107.
□ Guo Q, Lei H*. Families of Earth–Moon trajectories with applications to transfers towards Sun–Earth libration point orbits. Astrophysics and Space Science, 2019, 364(3): 43.
□ Lei H*, Circi C, Ortore E. Modified double-averaged Hamiltonian in hierarchical triple system. Monthly Notices of the Royal Astronomical Society, 2018, 481(4): 4602-4620.
□ Lei H*, Xu B, Circi C. Polynomial expansions of single-mode motions around equilibrium points in the circular restricted three-body problem. Celestial Mechanics and Dynamical Astronomy, 2018, 130: 1-34.
□ Lei H*, Xu B. Low-energy transfers to cislunar periodic orbits visiting triangular libration points. Communications in Nonlinear Science and Numerical Simulation, 2018, 54: 466-481.
□ Lei H*, Xu B. Resonance transition periodic orbits in the circular restricted three-body problem. Astrophysics and Space Science, 2018, 363: 1-11.
□ Lei H*, Circi C, Ortore E, et al. Periodic attitudes and bifurcations of a rigid spacecraft in the second degree and order gravity field of a uniformly rotating asteroid. Celestial Mechanics and Dynamical Astronomy, 2018, 130: 1-24.
□ Peng Y, Xu B, Fang B, Lei H et al. Analytical predictor-corrector guidance algorithm based on drag modulation flight control system for Mars aerocapture. International Journal of Aerospace Engineering, 2018.
□ Guo Q, Lei H*, Xu B. Semianalytical Solutions of Relative Motions with Applications to Periodic Orbits about a Nominal Circular Orbit. Mathematical Problems in Engineering, 2018.