Nagaashi, Y., Nakamura, A. M.
High mobility of asteroid particles revealed by measured cohesive force of meteorite fragments.
Science Advances9, eadd3530 (9pp) (2023).
Ogawa, R., Nakamura, A.M., Suzuki, A.-I., Hasegawa, S.
Crater shape as a possible record of the impact environment of metallic bodies: Effects of temperature, impact velocity and impactor density.
Icarus362, 114410 (14pp) (2021).
Nagaashi, Y., Nakamura, A.M., Hasegawa, S., Wada, K.
Packing fraction of clusters formed in free-falling granular streams based on flash x-ray.
Physical Rev. E.103, 032903 (6pp) (2021).
Omura, T., Nakamura, A.M. Primordial porous structure of chondrite parent bodies due to self-gravity.
Planetary Science Journal2, 41 (12pp) (2021).
Libourel, G.,
Nakamura, A.M., Beck, P., Potin, S., Ganino, C., Jacomet, S., Ogawa, R., Hasegawa, S., Michel, P.
Hypervelocity impacts as a source of deceiving surface signatures on iron-rich asteroids.
Science Advances5, eaav3971 (11pp) (2019).
Collins, G.,
Housen, K., Jutzi, M., Nakamura, A.M.
Planetary impact process in porous materials. in Shock Phenomena in Granular and Porous Materials.
Shock Wave and High Pressure Phenomena, eds. Vogler, T., Fredenburg, A., (Springer, Cham), pp 103-136 (2019).
Nakamura,
A.M., Yamane, F., Okamoto, T., Takasawa, S. Size dependence of the disruption threshod:
Laboratory examination of millimeter-centimeter porous targets.
Planet. Space Sci.107, 45-52 (2015).