原著論文

 

  1. H. Miura, Numerical model for the solidification of a chondrule melt,  Icarus 425, 116317 (2025) [web]
  2. Torii, Hiroki; Miura, Hitoshi, Oscillatory zoning of minerals as a fingerprint of impurity-mediated growth, Scientific Reports 14, 13337 (2024) [web]
  3. Zhou, Huiqin; Miura, Hitoshi; Fukami, Yuma; Dang, Yifan; Kutsukake, Kentaro; Harada, Shunta; Tagawa, Miho; Ujihara, Toru, Effect of Solution Components on solvent inclusion in SiC Solution Growth, Crystal Growth & Design, 24, 1806-1817 (2024) [web]
  4. Hitoshi Miura, Quantitative phase-field model for the isothermal solidification of a stoichiometric compound in a ternary liquid, Materialia 31, 101860 (2023) [web]
  5. Zhou, Huiqin; Miura, Hitoshi; Dang, Yifan; Fukami, Yuma; Takemoto, Hisaki; Harada, Shunta; Tagawa, Miho; Ujihara, Toru; Numerical modeling of cellular structure formation process in SiC solution growth for suppression of solvent inclusion. Crystal Growth & Design 23, 3393 (2023) [web]
  6. H. Miura and Y. Furukawa, Spontaneous oscillatory growth of ice crystals in supercooled water under a microgravity environment: theoretical hypothesis on the effect of antifreeze glycoprotein. Journal of Crystal Growth 603, 127044 (2023) [web]
  7. T. Nakamura et al., Formation and evolution of carbonaceous asteroid Ryugu: Direct evidence from returned samples. Science 10.1126/science.abn8671(2022) (web)
  8. E. Nakamura, K. Kobayashi, R. Tanaka, T. Kunihiro, H. Kitagawa, C. Potiszil, T. Ota, C. Sakaguchi, M. Yamanaka, D. M. Ratnayake, H. Tripathi, R. Kumar, M.-L. Avramescu, H. Tsuchida, Y. Yachi, H. Miura, M. Abe, R. Fukai, S. Furuya, K. Hatakeda, T. Hayashi, Y. Hitomi, K. Kumagai, A. Miyazaki, A. Nakato, M. Nishimura, T. Okada, H. Soejima, S. Sugita, A. Suzuki, T. Usui, T. Yada, D. Yamamoto, K. Yogata, M. Yoshitake, M. Arakawa, A. Fujii, M. Hayakawa, N. Hirata, N. Hirata, R. Honda, C. Honda, S. Hosoda, Y. Iijima, H. Ikeda, M. Ishiguro, Y. Ishihara, T. Iwata, K. Kawahara, S. Kikuchi, K. Kitazato, K. Matsumoto, M. Matsuoka, T. Michikami, Y. Mimasu, A. Miura, T. Morota, S. Nakazawa, N. Namiki, H. Noda, R. Noguchi, N. Ogawa, K. Ogawa, C. Okamoto, G. Ono, M. Ozaki, T. Saiki, N. Sakatani, H. Sawada, H. Senshu, Y. Shimaki, K. Shirai, Y. Takei, H. Takeuchi, S. Tanaka, E. Tatsumi, F. Terui, R. Tsukizaki, K. Wada, M. Yamada, T. Yamada, Y. Yamamoto, H. Yano, Y. Yokota, K. Yoshihara, M. Yoshikawa, K. Yoshikawa, M. Fujimoto, S. Watanabe, and Y. Tsuda, On the origin and evolution of the asteroid Ryugu: A comprehensive geochemical perspective. Proceedings of the Japan Academy, Series B Vol.98, No.6, 227-282 (2022) (web)
  9. H. Miura, E. Nakamura, & T. Kunihiro, The asteroid 162173 Ryugu: a cometary origin. The Astrophysical Journal Letters 925, L15 (2022) (web)
  10. H. Miura, Formulation of partition coefficient of impurities in a growing crystal based on the Burton-Cabrera-Frank model, Journal of Crystal Growth 549, 125867 (2020) [web]
  11. 三浦均,成長結晶への不純物取り込みに関する表面過程を考慮した理論モデルの提案,日本結晶成長学会誌 Vol.47, No. 1 (2020) 47-1-03
  12. H. Miura, Crystal growth hysteresis in spiral growth, Crystal Growth & Design 20, 245-254 (2020) [web]
  13. T. Yamamoto, H. Miura, and O. M. Shalabiea, Thermal desorption induced by chemical reaction on dust surface, Mon. Notices Royal Astron. Soc. 490, 709-717 (2019) [web]
  14. E. Nakamura, T. Kunihiro, T. Ota, C. Sakaguchi, R. Tanaka, H. Kitagawa, K. Kobayashi, M. Yamanaka, Y. Shimaki, G. E. Bebout, H. Miura, T. Yamamoto, V. Malkovets, V. Grokhovsky, O. Koroleva, and K. Litasov, Hypervelocity collision and water-rock interaction in space preserved in the Chelyabinsk ordinary chondrite, Proc. Jpn. Acad., Ser. B 95, 165-177 (2019)
  15. M. Nagasawa, K. K. Tanaka, H. Tanaka, H. Nomura, T. Nakamoto, and H. Miura, Shock-Generating Planetesimals Perturbed by a Giant Planet in a Gas Disk, The Astrophysical Journal 871, 110 (2019)
  16. H. Miura, Phase-field model for growth and dissolution of a stoichiometric compound in a binary liquid, Physical Review E, 98, 023311 (2018)
  17. H. Miura, T. Yamamoto, H. Nomura, T. Nakamoto, K. K. Tanaka, H. Tanaka, and M. Nagasawa, Comprehensive study of thermal desorption of grain-surface species by accretion shocks around protostars, The Astrophysical Journal, 839:47 (16pp) (2017)
  18. M. Sato, H. Miura, and M. Uwaha, Two mechanisms forming a comb–like step pattern induced by a moving linear adatom source, Physical Review E, 95, 032803 (2017)
  19. T. Yamazaki, K. Tsukamoto, I. Yoshizaki, S. Fukuyama, H. Miura, T. Shimaoka, T. Maki, K. Oshi, and Y. Kimura, Development of compartment for studies on the growth of protein crystals in space, Review of Scientific Instruments, 87, 033107 (2016)
  20. H. Miura, Numerical study of impurity-induced growth hysteresis on a growing crystal surface, Crystal Growth & Design, 16(4), 2033-2039 (2016)
  21. Y. Suzuki, K. Tsukamoto, I. Yoshizaki, H. Miura, and T. Fujiwara, First Direct Observation of Impurity Effects on the Growth Rate of Tetragonal Lysozyme Crystals under Microgravity as Measured by Interferometry, Crystal Growth & Design, 15(10), 4787-4794 (2015)
  22. T. Fujiwara, Y. Suzuki, I. Yoshizaki, K. Tsukamoto, K. Murayama, S. Fukuyama, K. Hosokawa, K. Oshi, D. Ito, T. Yamazaki, M. Tachibana, and H. Miura, Correction of the equilibrium temperature caused by slight evaporation of water in protein crystal growth cells during long-term space experiments at ISS, Review of Scientific Instruments, 86, 083704 (2015)
  23. H. Miura, Phase-field modeling of step dynamics on growing crystal surface: Step pinning induced by impurities, Crystal Growth & Design, 15(8), 4142-4148 (2015)
  24. K. Kishi, M. Kawaguchi, H. Miura, M. Sato, and M. Uwaha, Relation between the Step Pattern and the Velocity of the Moving Linear Adatom Source, e-Journal of Surface Science and Nanotechnology, 13, 269-274 (2015)
  25. H. Miura and R. Kobayashi, Phase-field modeling of step dynamics on growing crystal surface: direct integration of growth units to step front, Crystal Growth & Design, 15(5), 2165-2175 (2015)
  26. M. Kawaguchi, H. Miura, K. Kishi, M. Sato, and M. Uwaha, Period of the Comb-Like Pattern Controlled by Atom Supply and Noise, Physical Review E, 91, 012409 (2015)
  27. M. Nagasawa, K. Tanaka, H. Tanaka, T. Nakamoto, H. Miura, and T. Yamamoto, Revisiting Jovian-Resonance Induced Chondrule Formation, The Astrophysical Journal Letters, 794, L7(5pp) (2014)
  28. H. Niinomi, H. Miura, K. Kimura, M. Uwaha, H. Katsuno, S. Harada, T. Ujihara, and K. Tsukamoto, Emergence and Amplification of Chirality via Achiral-Chiral Polymorphic Transformation in Sodium Chlorate Solution Growth, Crystal Growth & Design, 14(7), 3596-3602 (2014)
  29. K. Murayama, K. Tsukamoto, A. Srivastava, H. Miura, E. Yokoyama, and Y. Kimura, Measurement of two-dimensional distribution of surface supersaturation over a sodium chlorate crystal surface using multidirectional interferometry, Crystal Research & Technology, 49(5), 315-322 (2014)
  30. H. Niinomi, A. Horio, S. Harada, T. Ujihara, H. Miura, Y. Kimura, and K. Tsukamoto, Solubility Measurement of a Metastable Achiral Crystal of Sodium Chlorate in Solution Growth, Journal of Crystal Growth 394, 106-111 (2014)
  31. H. Miura and T. Yamamoto, A New Estimate of Chondrule Cooling Rate Deduced from an Analysis of Compositional Zoning of Relict Olivine, The Astronomical Journal 147, 54 (9pp) (2014)
  32. A. Gucsik, T. Endo, H. Nishido, K. Ninagawa, M. Kayama, S. Bérczi, S. Nagy, P. Ábrahám, Y. Kimura, H. Miura, I. Gyollai, I. Simonia, P. Rózsa, J. Posta, D. Apai, K. Mihályi, M. Nagy and U. Ott, Cathodoluminescence microscopy and spectroscopy of forsterite from Kaba meteorite: An application to the study of hydrothermal alteration of parent body, Meteoritics & Planetary Science 48, 2577-2596 (2013)
  33. H. Niinomi, T. Yamazaki, S. Harada, T. Ujihara, H. Miura, Y. Kimura, T. Kuribayashi, M. Uwaha, and K. Tsukamoto, Achiral Metastable Crystals of Sodium Chlorate Forming Prior to Chiral Crystals in Solution Growth, Crystal Growth & Design 13(12), 5188-5192 (2013)
  34. H. Miura and K. Tsukamoto, Role of impurity on growth hysteresis and oscillatory growth of crystals, Crystal Growth & Design 13(8), 3588-3595 (2013)
  35. H. Miura, Anisotropy function of kinetic coefficient for phase-field simulations: Reproduction of kinetic Wulff shape with arbitrary face angles, Journal of Crystal Growth 367, 8-17 (2013)
  36. K. K. Tanaka, T. Yamamoto, H. Tanaka, H. Miura, M. Nagasawa, and T. Nakamoto, Evaporation of icy planetesimals due to planetesimal bow shocks, Astrophysical Journal 764, 120 (2013)
  37. Y. Kimura, K. K. Tanaka, H. Miura, K. Tsukamoto, Direct observation of the homogeneous nucleation of Mn in the vapor phase and applicability of nucleation theories, Crystal Growth & Design 12, 3278-3284 (2012)
  38. H. Ishida, T. Nakamura, H. Miura, and Y. Kakazu, Diverse mineralogical and isotope signatures recorded in CV3 carbonaceous chondrites, Polar Science 6, 252-262 (2012)
  39. A. Gucsik, K. Tsukamoto, H. Nishido, H. Miura, M. Kayama, K. Ninagawa, and Y. Kimura, Cathodoluminescence microcharacterization of forsterite in the chondrule experimentally grown under super cooling, Journal of Luminescence 132, 1041-1047 (2012)
  40. J. Nozawa, K. Tsukamoto, W. van Enckevort, T. Nakamura, Y. Kimura, H. Miura, H. Satoh, K. Nagashima, and M. Konoto, Magnetite 3D colloidal crystals formed in the early solar system 4.6 billion years ago, J. Ame. Chem. Soc. 133(23), 8782-8785 (2011)
  41. Y. Sugiura, K. Onuma, Y. Kimura, H. Miura, and K. Tsukamoto, Morphological evolution of precipitates during transformation of amorphous calcium phosphate into octacalcium phosphate in relation to role of intermediate phase, Journal of Crystal Growth 332, 58-67 (2011)
  42. H. Miura, E. Yokoyama, K. Nagashima, K. Tsukamoto, and A. Srivastava, A new constraint for chondrule formation: condition for the rim formation of barred-olivine textures, Earth, Planets and Space 63, 1087-1096 (2011)
  43. Y. Kimura, H. Miura, K. Tsukamoto, C. Li, and T. Maki, Interferometric in-situ observation during nucleation and growth of WO3 nanocrystals in vapor phase, Journal of Crystal Growth 316, 196-200 (2011)
  44. H. Miura, E. Yokoyama, K. Nagashima, K. Tsukamoto, and A. Srivastava, Phase-field simulation for crystallization of a highly supercooled melt droplet in levitation environment, Journal of Applied Physics 108, 114912 (2010)
  45. H. Nada, S. Zepeda, H. Miura, and Y. Furukawa, Significant alterations in anisotropic ice growth rate induced by the ice nucleation-acitve bacteria Xanthomonas Campestris, Chemical Physics Letters 498, 101-106 (2010)
  46. A. Srivastava, Y. Inatomi, K. Tsukamoto, T. Maki, and H. Miura, In-situ visualization of crystallization inside high temperature silicate melts, Journal of Applied Physics 107, 114907 (2010)
  47. H. Miura, K. K. Tanaka, T. Yamamoto, T. Nakamoto, J. Yamada, K. Tsukamoto, and J. Nozawa, Formation of cosmic crystals in highly-supersaturated silicate vapor produced by planetesimal bow shocks, Astrophysical Journal 719, 642-654 (2010)
  48. J. Nozawa, K. Tsukamoto, H. Kobatake, J. Yamada, H. Satoh, K. Nagashima, H. Miura, and Y. Kimura, AFM study on surface nanotopography of matrix olivines in Allende carbonaceous chondrites, Icarus 204, 681-686 (2009)
  49. S. Yasuda, H. Miura, and T. Nakamoto, Compound chondrule formation in the shock-wave heating model: Three-dimensional hydrodynamics simulation of the disruption of a partially-molten dust particle, Icarus 204, 303-315 (2009)
  50. 平野大地, 太田敦人, 村山健太, 宮崎真利, 丸山美帆子, 長嶋剣, 三浦均, 塚本勝男, 微小重力でのシャボン玉の安定性, 日本マイクログラビティ応用学会誌, Vol.25, No.2, 96-100 (2008)
  51. H. Miura, T. Nakamoto, and M. Doi, Origin of three-dimensional shapes of chondrules. I: Hydrodynamics simulations of rotating droplet exposed to high-velocity rarefied gas flow, Icarus 197, 269-281 (2008)
  52. H. Miura, S. Yasuda, and T. Nakamoto, Fragment-Collision Model for Compound Chondrule Formation: Estimation of Collision Probability, Icarus 194, 811-821 (2008)
  53. H. Miura, and T. Nakamoto, Shock-Wave Heating Model for Chondrule Formation: Hydrodynamic Simulation of Molten Droplets exposed to Gas Flows, Icarus 188, 246-265 (2007)
  54. H. Miura and T. Nakamoto, Shock-Wave Heating Model for Chondrule Formation: Prevention of Isotopic Fractionation, Astrophysical Journal 651, 1272-1295 (2006)
  55. T. Kato, T. Nakamoto, and H. Miura, Maximal size of chondrules in shock wave heating model: stripping of liquid surface in a hypersonic rarefied gas flow, Meteoritics and Planetary Science 41, 49-65 (2006)
  56. 三浦均, 中本泰史, 衝撃波加熱コンドリュール形成:形成領域の光学的厚さ, 日本惑星科学会誌, Vol.14, No.1, p.4-9 (2005)
  57. H. Miura and T. Nakamoto, A shock-wave heating model for chondrule formation. II. minimum size of chondrule precursors, Icarus 175, 289-304 (2005)
  58. 三浦均, 中本泰史, コンドリュール? ショック! ~衝撃波加熱コンドリュール形成モデル~, 日本惑星科学会誌, Vol.11, No.3, p.150-157 (2002)
  59. H. Miura, T. Nakamoto, and H. Susa, A shock-wave heating model for chondrule formation; the effects of evaporaiton and gas flows on the silicate particles, Icarus 160, 258-270 (2002)