Statistics  (by Oct, 2025)


Selected Publications 

33. Resonance Capture and Stability Analysis for Planet Pairs under Type I Disk Migration

Lin Linghong, Liu Beibei, Zheng Zekai, A&A, 2025  arXiv:2501.12650

32. Hydrodynamical Simulations of Planet Rebound Migration in Photo-evaporating Disks

Liu Beibei, Baruteau, Clément, Zhu, Zhaohuan, Li, Ya-Ping, Paardekooper, Sijme-Jan, A&A, 2025   arXiv:2509.06695

31. JVLA Measurement of Grain Size in the Compact Dust Ring Around Class I Protostar WL 17

Hashimoto, Jun,..., Liu Beibei et. al,   ApJ, 2025   arXiv:2507.08246

30. Planetary edge trends: I. The inner edge – stellar mass correlation

Sun Mengfei, Xie, Jiwei, Zhou Ji-Lin, Liu, Beibei et al.,  A&A, 2025   arXiv:2501.02215

29. Dependence of Planet Populations on Stellar Mass and Metallicity: A Pebble-accretion-based Planet Population Synthesis Model

Pan Mengrui, Liu, Beibei et al.,  ApJ, 2025   arXiv:2504.00296

28. A roadmap for the atmospheric characterization of terrestrial exoplanets with JWST

TRAPPIST-1 JWST Community Initiative,..., Liu, Beibei et al.,  ApJ, 2024   arXiv:2310.15895

27. Relative Occurrence Rate between Hot and Cold Jupiters as an Indicator to Probe Planet Migration

Gan Tianjun, Guo Kangrou, Liu, Beibei et al.,  ApJ, 2024   arXiv:2404.07033

26. Forming giant planets around late-M dwarfs: Pebble accretion and planet-planet collision

Pan Mengrui, Liu, Beibei et al.,  A&A, 2024   arXiv:2311.10317

25. Formation of giant planets around intermediate-mass stars

Johnston, Heather, Panić, O., Liu, Beibei,  MNRAS, 2024   arXiv:2310.17767

24. Planetesimal Growth in Evolving Protoplanetary Disks: Constraints from the Pebble Supply

Fang, Tong, Zhang, Liu, Shangfei, Liu, Beibei, Deng, Hongping,  ApJ, 2023   arXiv:2303.03621

23. Centimeter-sized Grains in the Compact Dust Ring around Very-low-mass Star CIDA 1

Hashimoto, Jun,..., Liu Beibei et. al,   ApJ, 2023   arXiv:2308.11837

22. Planet Formation Theory in the Era of ALMA and Kepler: from Pebbles to Exoplanets

Drążkowska, Joanna,..., Liu Beibei et. al,   Protostars & Planets VII [book chapter], 2023   arXiv:2203.09759

21. Grain Growth in the Dust Ring with a Crescent around the Very Low-mass Star ZZ Tau IRS with JVLA

Hashimoto, Jun,..., Liu Beibei et. al,   ApJ, 2022   arXiv:2211.01570

20. Growth after the streaming instability: The radial distance dependence of the planetary growth

Jang, Hyerin, Liu Beibei, Johansen Anders   A&A, 2022    arXiv:2205.10103

19. Natural separation of two primordial planetary reservoirs in an expanding solar protoplanetary disk

Liu Beibei, Johansen Anders, Lambrecths Michel, Bizzarro Martin, Haugbølle, Troels   Science Advances, 2022    arXiv:2204.10651

18. Early Solar System instability triggered by dispersal of the gaseous disk

Liu Beibei, Raymond Sean, Jacobson Seth   Nature, 2022    arXiv:2205.02026

17. Detailed elemental abundances of binary stars: Searching for signatures of planet formation and atomic diffusion

Liu Fan, Bitsch Bertram, Asplund Martin, Liu Beibei et.al,   MNRAS, 2021    arXiv:2108.11001

16. A tale of planet formation: from dust to planets

Liu Beibei, Ji Jianghui   RAA [invited review], 2020    arXiv:2009.02321

15. Promoted mass growth of multiple, distant giant planets through pebble accretion and planet-planet collision

Wimarsson John, Liu Beibei, Ogihara Masahiro  MNRAS, 2020    arXiv:2006.06451

14. Pebble-driven planet formation around very low-mass stars and brown dwarfs

Liu Beibei, Lambrechts, Michiel, Johansen Anders, Pascucci Ilaria, Henning Tomas  A&A, 2020    arXiv:2004.07239


13. Pebble drift and planetesimal formation in protoplanetary discs with embedded planets

Eriksson Linn, Johansen Anders, Liu Beibei   A&A, 2020    arXiv:2001.11042


12. Super-Earth masses sculpted by pebble isolation around stars of different masses

Liu Beibei, Lambrechts Michiel, Johansen Anders, Liu Fan  A&A, 2019    arXiv:1909.00759


11. Pebble-driven planet formation for TRAPPIST-1 and other compact systems

Schoonenberg Djoeke, Liu Beibei, Ormel Chris W., Dorn Caroline   A&A, 2019    arXiv:1906.00669


10. Growth after the streaming instability: From planetesimal accretion to pebble accretion

Ormel Chris W., Liu Beibei    A&A, 2019    arXiv:1902.10062


9. Catching drifting pebbles. II. A stochastic equation of motion for pebbles

Ormel Chris W., Liu Beibei    A&A, 2019    arXiv:1803.06150


8. Catching drifting pebbles. I. Enhanced pebble accretion efficiencies for eccentric planets

Liu Beibei, Ormel Chris W.    A&A, 2018    arXiv:1803.06149


7. Formation of TRAPPIST-1 and other compact systems

Ormel Chris W., Liu Beibei, Schoonenberg Djoeke    A&A, 2017    arXiv:1703.06924


6. Dynamical rearrangement of super-Earths during disk dispersal. II. Assessment of the magnetospheric rebound model for planet formation scenarios

Liu Beibei, Ormel Chris W.    A&A, 2017    arXiv:1708.01275


5. Dynamical rearrangement of super-Earths during disk dispersal. I. Outline of the magnetospheric rebound model

Liu Beibei, Ormel Chris W., Lin Douglas N. C.    A&A, 2017    arXiv:1702.02059


4. Migration and Growth of Protoplanetary Embryos III. Mass and Metallicity Dependence for FGKM Main-sequence Stars

Liu Beibei, Zhang Xiaojia, Lin Douglas N. C.    ApJ, 2016    arXiv:1605.05294


3. Migration and Growth of Protoplanetary Embryos II. Emergence of Proto-Gas-Giant Cores versus Super Earth Progenitors

Liu Beibei, Zhang Xiaojia, Lin Douglas N. C., Aarseth, Sverre J.   ApJ, 2015    arXiv:1410.7952


2. Migration and Growth of Protoplanetary Embryos I: Convergence of Embryos in Protoplanetary Disks

Zhang Xiaojia, Liu Beibei, Lin Douglas N. C., Li Hui    ApJ, 2014    arXiv:1410.3391

1. Atmospheric Circulation of Hot Jupiters: Insensitivity to Initial Conditions

Liu Beibei, Showman Adam P.   ApJ, 2013    arXiv:1208.0126