nkysdb: 共著者関連データベース

NAKAMOTO Taishi 様の 共著関連データベース

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+(A list of literatures under single or joint authorship with "NAKAMOTO Taishi")

共著回数と共著者名 (a list of the joint author(s))

    17: NAKAMOTO Taishi

    5: MIURA Hitoshi

    3: YASUDA Seiji

    2: KITA Noriko T., SUSA Hajime, TACHIBANA Shogo

    1: ARAKAWA Sota, HAYASHI Mitsuru R., IIDA Akira, KATO Takaaki, MIIURA Hitoshi, MIURA Hiroshi, NAKAGAWA Yoshitsugu, SEKIYA Minoru, UESUGI Masayuki

発行年とタイトル (Title and year of the issue(s))

    1990: Disk Self Gravity Effects on the Time Evolution of the Solar Nebula [Net] [Bib]

    1994: Growth of Protoplanetary Disks around Young Stellar Objects [Net] [Bib]

    2001: A Shock Heating Model for Chondrule Formation [Net] [Bib]

    2002: A Shock Wave Heating Model for Chondrule Formation: Effects of Evaportion and Gas Flows on Silicate Particles [Net] [Bib]

    2003: Deformation and internal flow of a chondrule precursor molten sphere in a shocked nebular gas [Net] [Bib]

    2004: Inhomogeneous Temperature Distribution in Chondrules in the Shock Wave Heating [Net] [Bib]

    2004: Shock Wave Heating Chondrule Formation: Generation of Shock Waves at Upper Region of Solar Nebula by X Ray Flares and Expanding Magnetic Bubbles [Net] [Bib]

    2004: Shock Wave Heating Model for Chondrule Formation: Chondrule Formation in a Less Dusty Environment [Net] [Bib]

    2005: Chondrule age distribution and rate of heating events for chondrule formation [Net] [Bib]

    2005: Thermal history of chondrules during shock wave heating [Net] [Bib]

    2006: Compound Chondrule Formation in Shock Wave Heating Model [Net] [Bib]

    2006: Maximal size of chondrules in shock wave heating model: Stripping of liquid surface in a hypersonic rarefied gas flow [Net] [Bib]

    2006: Possible maximum size of porphyritic chondrules in the shock wave heating model [Net] [Bib]

    2006: Shock Wave Heating Model for Chondrule Formation: Relation between External Shapes of Molten Droplets and Non spherical Chondrules [Net] [Bib]

    2007: Shock wave heating model for chondrule formation: Hydrodynamic simulation of molten droplets exposed to gas flows [Net] [Bib]

    2009: Compound chondrule formation in the shock wave heating model: Three dimensional hydrodynamics simulation of the disruption of a partially molten dust particle [Net] [Bib]

    2016: Compound chondrule formation via collision of supercooled droplets [Net] [Bib]

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