统计(截至2026年6月)


论文

44. Chemical Abundances Shape History (CASH). I. A Link between Giant Planets' Orbital Periods and Host Stellar C/O Ratios

Zhang Ruisheng, Xie Ji-Wei, Pan Mengrui, ..., Zhang Yapeng, AJ, 2026, arXiv:2604.06809

43. Coupling dynamical accretion and chemical differentiation: a unified framework for Earth-Mars diversity

Kong Zhihui, Liu Beibei, ZhangZhou J., ..., Jiang Jonathan H., arXiv, 2026, arXiv:2605.30783

42. Effects of stellar X-ray photoevaporation on planetesimal formation via the streaming instability

Ying Xuchu, Liu Beibei, Yang Haifeng, ..., Chen Ping, A&A, 2026, arXiv:2601.18112

41. A universal brown dwarf desert formed between planets and stars

Cui Kaiming, Xiao Guang-Yao, Feng Fabo, ..., Xuan Yifan, PNAS, 2026, arXiv:2603.01808

40. Capture and Stability of Resonant Planet Pairs in Turbulent Disk

Lin Linghong, Liu Beibei, Dai Fei, ..., Chen Ping, arXiv, 2026, arXiv:2602.20525

39. The impact of pre-main sequence stellar luminosity on giant planet formation

Johnston Heather F., Panić Olja, Liu Beibei, Jankowski Patryk, MNRAS, 2025, arXiv:2508.20291

38. 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

37. 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

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

Hashimoto Jun, Liu Hauyu Baobab, Dong Ruobing, Liu Beibei, Muto Takayuki, AJ, 2025, arXiv:2507.08246

35. Planetary edge trends: I. The inner edge ─ stellar mass correlation

Sun Meng-Fei, Xie Ji-Wei, Zhou Ji-Lin, Liu Beibei, Nikolaou Nikolaos, Millholland Sarah C., A&A, 2025, arXiv:2501.02215

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

Pan Mengrui, Liu Beibei, Jiang Linjie, Xie Jiwei, Zhu Wei, Ribas Ignasi, ApJ, 2025, arXiv:2504.00296

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

TRAPPIST-1 JWST Community Initiative, de Wit Julien, Doyon René, ..., Way Michael J., Nature Astronomy, 2024, arXiv:2310.15895

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

Gan Tianjun, Guo Kangrou, Liu Beibei, ..., Fulton Benjamin J., ApJ, 2024, arXiv:2404.07033

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

Pan Mengrui, Liu Beibei, Johansen Anders, ..., Ribas Ignasi, A&A, 2024, arXiv:2311.10317

30. Progress on Exoplanet Detection and Research in Space

Zhou Jilin, Xie Jiwei, Ge Jian, ..., Liu Beibei, Chinese Journal of Space Science, 2024

29. Formation of giant planets around intermediate-mass stars

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

28. A Review to the Observational and Theoretical Studies of Planetary Systems around Red Dwarfs

Pan M. R., Liu B. B., Acta Astronomica Sinica, 2023

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

Hashimoto Jun, Liu Hauyu Baobab, Dong Ruobing, Liu Beibei, Muto Takayuki, Terada Yuka, AJ, 2023, arXiv:2308.11837

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

Drążkowska J., Bitsch B., Lambrechts M., ..., Morbidelli A., 2023, arXiv:2203.09759

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

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

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

Hashimoto Jun, Liu Hauyu Baobab, Dong Ruobing, Liu Beibei, Muto Takayuki, ApJ, 2022, arXiv:2211.01570

23. Science goals of the Earth 2.0 space mission

Zhang Hui, Ge Jian, Deng Hongping, ..., Liu Jinzhong, 2022

22. 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

21. ET White Paper: To Find the First Earth 2.0

Ge Jian, Zhang Hui, Zang Weicheng, ..., consortium the ET, arXiv, 2022, arXiv:2206.06693

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

Liu Beibei, Johansen Anders, Lambrechts Michiel, Bizzarro Martin, Haugbølle Troels, Science Advances, 2022, arXiv:2204.10651

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

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

18. TOI-530b: a giant planet transiting an M-dwarf detected by TESS

Gan Tianjun, Lin Zitao, Wang Sharon Xuesong, ..., Jenkins Jon M., MNRAS, 2022, arXiv:2110.04220

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

Liu Fan, Bitsch Bertram, Asplund Martin, ..., Feltzing Sofia, MNRAS, 2021, arXiv:2108.11001

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

Liu Beibei, Ji Jianghui, RAA, 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 Thomas, A&A, 2020, arXiv:2004.07239

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

Eriksson Linn E. J., 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

Liu Beibei, Ormel Chris W., Johansen Anders, 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, 2018, 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. 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

6. Formation of TRAPPIST-1 and other compact systems

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

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