Publications can also be found on ADS and Google Scholar.

Refereed articles

1. Fujii Y. I., Ogihara M., Hori Y. 2026, Different architecture of Jupiter and Saturn satellite systems from magnetospheric cavity formation, Nature Astronomy, 1-9
2. He Y., Ogihara M., Guo K. 2026, Long-term evolution of close-in sub-Neptunes and other planetary embryos: Atmospheric mass loss and origin of planets inside and outside the radius gap, ApJ, 1000, 152
3. Cui K., Xiao G.-Y., Feng F., Liu B., Nayakshin S., Hall C., Guo K., Lai D., Ogihara M. et al., 2026, A universal brown dwarf desert formed between planets and stars, PNAS, 123, e2524764123
4. Guo K., Ida S., Ogihara M. 2026, Formation of free-floating planets via ejection: Population synthesis with a realistic IMF and comparison to microlensing observations, ApJ, 997, 34
5. Ogihara M., & Kunitomo M. 2026, Formation and disruption of resonant chains of super-Earths: Secular perturbations from other eccentric embryos, ApJ, 996, 91
6. Uyama T., Kuzuhara M., Beichman C., Hirano T., Kotani T., An Q., Brandt T. D., Janson M., Mawet D., Mori M., Sato B., Stoeva D., Tamura M., Aizawa M., Cale B., Henning T., Ishikawa H. T., Narita N., Ogihara M. et al., 2025, Direct Imaging Explorations for Companions from the Subaru/IRD Strategic Program II; Discovery of a Brown-dwarf Companion around a Nearby Mid-M-dwarf LSPM J1446+4633, AJ, 170, 272
7. Mori S., Kunitomo M., Ogihara M. 2025, Long-term Evolution of the Temperature Structure in Magnetized Protoplanetary Disks and Its Implication for the Dichotomy of Planetary Composition, A&A, 697, A192
8. Guo K., Ogihara M., Ida S., Hori Y., Cui K. 2025, Feng F., A Population Synthesis Study on the Formation of Cold Jupiters from Truncated Planetesimal Disks, ApJ, 983, 56
9. Ogihara M., Morbidelli A., Kunitomo M. 2024, Super-Earth formation with slow migration from a ring in an evolving peaked disk compatible with terrestrial planet formation, ApJ, 972, 181
10. Kuzuhara M., et al. 2024, Gliese 12 b: A Temperate Earth-sized Planet at 12 pc Ideal for Atmospheric Transmission Spectroscopy, ApJL, 967, L21
11. Feng F., Rui Y., Zhimao D., Lin Q., Zhang C., Zhou D., Cui K., Ogihara M., et al. 2024, Tianyu: search for the second solar system and explore the dynamic universe Acta Astronomica Sinica, in press.
12. Pan M., Liu B., Johansen A. Ogihara M., Wang S., Ji J., Wang S. X., Feng F., Ribas I. 2024, Forming giant planets around late-M dwarfs: Pebble accretion and planet-planet collision, A&A, 682, A89
13. Kurosaki K., Hori Y., Ogihara M., Kunitomo M. 2023, Evolution of a water-rich atmosphere formed by a giant impact on an Earth-sized planet, ApJ, 957, 67
14. Yang S., Zheng Z., Ogihara M., Guo K., Ouyang W., He Y. 2023, The stability of unevenly spaced planetary systems, Icarus, 406, 115757
15. Uyama T., Beichman C., Kuzuhara M., Janson M., Kotani T., Mawet D., Sato B., Tamura M., Ishikawa H. T., Cale B., Currie T., Harakawa H., Henning T., Hirano T., Hodapp K., Hori Y., Ishizuka M., Jacobson S., Kasagi Y., Kokubo E., Konishi M., Kudo T., Kurokawa T., Kusakabe N., Kwon J., Machida M., Nakagawa T., Narita N., Nishikawa J., Ogihara M. et al., 2023, Direct Imaging Explorations for companions around Mid-Late M stars from the Subaru/IRD Strategic Program, AJ, 165, 162
16. Ogihara M., Genda H., & Sekine Y. 2023, Early Water Delivery to Terrestrial Planet Regions during the Stages of Jupiter’s Formation and Migration in the Grand Tack Model, PSJ, 4, 32
17. Feng F., Butler R. P., Vogt S. S., Clement M. S., Tinnery C. G., Cui K., Aizawa M., Jones H. R. A., Bailey J., Burt J., Carter B. D., Crane J. D., Flammini Dotti F., Holden B., Ma B., Ogihara M. et al. 2022, 3-D selection of 167 sub-stellar companions to nearby stars, ApJS, 262, 21
18. Harakawa H., Takarada T., Kasagi Y., Hirano T., Kotani T., Kuzuhara M., Omiya M., Kawahara H., Fukui A., Hori Y., Ishikawa H., Ogihara M. et al. 2022, A super-Earth orbiting near the inner edge of the habitable zone around the M4.5 dwarf Ross 508, PASJ, 74, 904-922
19. Ogihara M., Kokubo E., Nakano R., & Suzuki, T. K. 2022, Rapid-then-slow migration reproduces mass distribution of TRAPPIST-1 system, A&A, 658, A184
20. Ishikawa H. T. et al. 2022, Elemental abundances of nearby M dwarfs based on high-resolution near-infrared spectra obtained by the Subaru/IRD survey: Proof of concept, ApJ, 163, 72
21. Ueda T., Ogihara M., Kokubo E., & Okuzumi, S. 2021, Early initiation of inner solar system formation at the dead-zone inner edge, ApJL, 921, L5
22. Fukui A., Korth J., Livingston J., Twicken J., Osorio M., Jenkins J., Mori M., Murgas F., Ogihara M., and 59 authors 2021, TOI-1749: and M dwarf with a trio of planets including a near-resonant pair, AJ, 162, 167
23. Ogihara M., Hori Y., Kunitomo M. & Kurosaki K. 2021, Formation of giant planets with large metal masses and metal fractions via giant impacts in a rapidly dissipating disk, A&A, 648, L1
24. Ogihara M., Kunitomo M. & Hori Y. 2020, Unified simulations of planetary formation and atmospheric evolution II: Rapid disk clearing by photoevaporation yields low-mass super-Earth atmospheres, ApJ, 899, 91
25. Wimarsson J., Liu B., & Ogihara M. 2020, Promoted mass growth of multiple, distant giant planets through pebble accretion and planet-planet collision, MNRAS, 496, 3314
26. Ogihara M. & Hori Y. 2020, Unified simulations of planetary formation and atmospheric evolution: Effects of pebble accretion, giant impacts, and stellar irradiations on super-Earth formation, ApJ, 892, 124
27. Matsumoto Y., & Ogihara M. 2020, Breaking Resonant Chains: Destabilization of Resonant Planets due to Long-term Mass Evolution, ApJ, 893, 43
28. Fujii Y. I., & Ogihara M. 2020, Formation of single-moon systems around gas giants, A&A, 635, L4
29. Hori Y., & Ogihara M. 2020, Do the TRAPPIST-1 Planets have hydrogen-rich atmospheres?, ApJ
30. Ogihara M., & Hori Y. 2018, A limit on gas accretion onto close-in super-Earth cores by disk accretion, ApJ
31. Ogihara M., Kokubo E., Suzuki, T. K., & Morbidelli A. 2018, Formation of close-in super-Earths in evoving protoplanetary disks due to disk winds, A&A
32. Ogihara M., Kokubo E., Suzuki, T. K., & Morbidelli A. 2018, Formation of the terrestrial planets in the soalr system around 1 au via radial concentration of planetesimals, A&A, 612, L5
33. Ogihara M., Kokubo E., Suzuki, T. K., Morbidelli A., Crida A. 2017, Effects of global gas flows on type I migration, A&A, 608, A74
34. Izidoro A., Ogihara M., Raymond S. N., Morbidelli, Pierens A., Bitsch B., Cossou C., & Hersant F. 2017, Breaking the Chains: Hot super-Earth systems from migration and disruption of compact resonant chains, MNRAS, 470, 1750-1770
35. Suzuki K. T., Ogihara M., Morbidelli A., Crida A., & Guillot T. 2016, Evolution of protoplanetary discs with magnetically driven disc winds, A&A, 596, A74
36. Ogihara M., Morbidelli A., & Guillot T., A suppression of type I migration, A&A, 584, L1
37. Ogihara M., Kobayashi H., Inutsuka S., & Suzuki K. T. 2015, Formation of terrestrial planets in disk evolving via disk winds and implications for the origin of the solar system’s terrestrial planets, A&A, 579, A65
38. Ogihara M., Morbidelli A., & Guillot T. 2015, A reassessment of the in situ formation of close-in super-Earths, A&A, 578, A36
39. Ogihara M., Kobayashi H., & Inutsuka S. 2014, N-body simulations of terrestrial planet formation under the influence of a hot Jupiter, ApJ, 787, 172
40. Ogihara M., Inutsuka S., & Kobayashi H. 2013, Crowding-out of giants by dwarfs: An origin for the lack of companion planets in hot Jupiter systems, ApJL, 778, L9
41. Ogihara M., & Kobayashi H. 2013, Condition for capture into first-order mean motion resonance and application to constraints on the origin of resonant systems, ApJ, 775, 34
42. Dwyer C. A., Nimmo F., Ogihara M., & Ida S. 2013, The influence of imperfect accretion and radial mixing on ice:rock ratios in the Galilean satellites, Icarus, 225, 390
43. Ogihara M., & Ida S. 2012, N-body simulations of satellite formation around giant planets: Origin of orbital configuration of the Galilean moons, ApJ, 753, 60
44. Ogihara M., Duncan M. J., & Ida S. 2010, Eccentricity trap: Trapping of resonantly interacting planets near the disk inner edge, ApJ, 721, 1184
45. Ogihara M., & Ida S. 2009, N-body simulations of planetary accretion around M dwarf stars, ApJ, 699, 824
46. Ogihara M., Ida S., & Morbidelli A. 2007, Accretion of terrestrial planets from oligarchs in a turbulent disk, Icarus, 188, 522

Proceedings and others

1. Ogihara M. 2022, Water delivery to a delicate system, Nature Astronomy, 6, 18
2. Ogihara M. & Hori Y. 2019, Super-Earths and their atmospheres, TENMON, 112, 12
3. Ogihara M., Kokubo E., Suzuki T. K., & Morbidelli A. 2018, Origin of close-in super- Earths: In-situ formation in an evolving disk due to disk winds, European Planetary Science Congress 2018, EPSC Abstracts, Vol.12, id. EPSC2018-608
4. Ogihara M. 2018, Formation of close-in super-Earths, Yuseijin, 27, 235-245
5. Kotani T. et al. 2018, The infrared Doppler (IRD) instrument for the Subaru telescope: instrument description and commissioning results, Proc. SPIE 10702, 1070211
6. Kotani T. et al. 2014, Infrared dopper instrument (IRD) for the Subaru telescope to search for Earth-like planets around nearby M-dwarfs, Proc. SPIE 9147, 914714
7. Serpolier C., Marboeuf U., Alibert Y., Ogihara M., Ida S., & Wurz P. 2014, Formation and composition of the Galilean Moons, European Planetary Science Congress 2014, EPSC Abstracts, Vol.9, id. EPSC2014-467
8. Ogihara M., Ida S., & Duncan M. J. 2013, Formation and dynamical behavior of close-in super-Earths, The 11th Asian-Pacific Regional IAU Meeting 2011, NARIT Conference Series, 1, 108
9. Tamura M. et al. 2012, Infrared doppler instrument for the Subaru telescope (IRD), Proc. SPIE 8446, 84461T
10. Ogihara M., & Ida S. 2009, N-body simulations of planetary accretion around M dwarf stars, Exoplanets and Disks: Their Formation and Diversity, Proceedings of the International Conference, AIP, 1158, 259
11. Ogihara M., & Ida S. 2009, N-body simulations of planetary accretion around M dwarf stars, Yuseijin, 18, 89
12. Ida S., Lin D. N. C., & Ogihara M. 2009, Formation of short-period terrestrial planets, Exoplanets and Disks: Their Formation and Diversity, Proceedings of the International Conference, AIP, 1158, 213
13. Ogihara M., & Ida S. 2008, Formation of terrestrial planets from planetesimals around M dwarfs, Exoplanet: Detection, Formation and Dynamics, Proceedings of the International Astronomical Union, Cambridge University Press, 249, 305