プロシーディング論文

査読付きプロシーディング論文

  1. [Link] X. Jin, T. Yamamoto, Y. Takagi, Y. Okano, Y. Inatomi, Y. Hayakawa and S. Dost: “A Numerical Study on the Growth Process of InGaSb Crystals under Microgravity Onboard the International Space Station”, Proc. ICCGE-18 (accepted).
  2. [Link] Xin Jin, Haryo Mirsandi, Takuya Yamamoto, Youhei Takagi, Yasunori Okano, Yuko Inatomi, Yasuhiro Hayakawa, Sadik Dost: “Numerical Simulation of InGaSb Crystals Growth under Microgravity Onboard the International Space Station”, JJAP Conference Proceedings 4 (2016) 011107.
  3. [Link] Tatsuaki Hashimoto, Shujiro Sawai, Shinichiro Sakai, Nobutaka Bando, Hiroaki Kobayashi, Kazuhisa Fujita, Yuko Inatomi, Takehiko Ishikawa, Tetsuo Yoshimitsu, Yoshitaka Saito: “Development of Balloon-based Micro-gravity Experiment System”, Proc. 60th International Astronautical Congress (2009), IAC-09.A2.5.3.
  4. [Link] Yuko Inatomi and Tetsuo Yoshimitsu: “RECENT ACTIVITY OF SPACE TERMINOLOGY IN JAPAN”, Proc. 59th International Astronautical Congress (Sep. 29-Oct. 3, 2008, Glasgow, Scotland) IAC-08-E7.1.4.
  5. [Link] Y. Inatomi, K. Iwamoto, T. Maki, Y. Takagi and K. Kuribayashi: “Preliminary Experiments of Faceted Cellular Array Growth”, Journal of the Japan Society of Microgravity Application 25 (2008) pp. 579-582.
  6. [Link] N. Bando, K.-I. Tajima, S.-I. Sakai, Y. Inatomi, T. Ishikawa, H. Kobayashi, K. Fujita, H. Fuke, S. Sawai, T. Hashimoto: “Development of control system for micro gravity experimental system from high altitude balloon”, International Astronautical Federation - 58th International Astronautical Congress 2007 (2007) IAC-07-A2.3.08.
  7. [Link] Tatsuaki HASHIMOTO, Shujiro SAWAI, Yoshitaka SAITO, Yuko INATOMI, Takehiko ISHIKAWA, Tetsuo, YOSHIMITSU, Shin’ichiro SAKAI, Hiroaki KOBAYASHI, Kazuo FUJITA, Nobutaka BANDO, Hiroshi YAMAKAWA: “Micro-gravity Test System Using Free-fall Capsule from High Altitude Balloon”, Proc. The 26th International Symposium on Space Technology and Science (2006, Kanazawa) pp. 877-880.
  8. [Link] Fumitomo Onishi, Kosuke Nagashio, Yuko Inatomi, Kazuhiko Kuribayashi: “Measuring equipment for thermophysical properties of droplet electromagnetically−levitated under axial static magnetic field”, Proc. 56th International Astronautical Congress (2005) IAC-05-A2.3.05.
  9. [Link] Y. Inatomi and K.Kuribayashi: “Morphological stability of GaP growth interface in LPE under reduced convection condition”, Proc. 40th AIAA Aerospace Sciences Meeting and Exhibit (Jan. 2002, Reno, USA), AIAA Meeting Papers on Disc 7 Disk2, Paper No. 2002-0458.
  10. Y. Inatomi, T. Miyake and K. Kuribayashi: “Measurement of Diffusion Coefficient in Molten In-Sn under Static Magnetic Field”, Proc. 2nd China-Germany Workshop on Microgravity Sciences (Sep. 2002, Dunhuang, China), pp. 119-122.
  11. [Link] Y. Inatomi, A. Kato, K. Horiuchi, T. Maki and K. Kuribayashi: “Solution Growth of Semiconductor in Axial Static Magnetic Field”, Proc. 12th International Conference of the Experimental Methods for Microgravity Marterials Science 12 (Mar. 14, 2000, Nashville, USA) CD-ROM.
  12. [Link] M. Kaneda, T. Tagawa, H. Ozoe, and K. Kakimoto, Y. Inatomi: “Natural Convection of Liquid Metal with and without Seebeck Effect”, Proc. Symposium on Energy Engineering in the 21st Century (SEE2000), vol.1, Ed.by P.Cheng, Begell House (Jan. 2000, Hong Kong, China) pp. 302-309.
  13. [Link] Y. Inatomi, Th. Kaiser, P. Dold, K.W. Benz and K. Kuribayashi: “Semiconductor Growth Interface from Solution in Short-Duration Low Gravity Environment”, Proc. SPIE International Symposium 3792 (Jul., 19, 1999, Colorado, USA) pp. 139-146.
  14. Y. Inatomi and K. Kuribayashi: “Visualization Technique of Semiconductor Growth Interface from Solution in Microgravity”, Proc. Joint 1st Pan-Pacific Basin Workshop and 4th Japan-China Workshop on Microgravity Sciences (Jul., 1998, Tokyo) pp. 485-489.
  15. [Link] W. Huang, X. Lin, Y. Inatomi and K. Kuribayashi: “Time-Dependent Interface Instability During Directional Solidification”, Proc. 4th Decennial International Conference on Solidification Processing 1997 (Jul., 1997, Sheffield, UK) pp. 591-594.
  16. [Link] K. Kuribayashi, Y. Inatomi, S. Endoh and H. Sakuta: “Influence of Release and Transport of Latent Heat on Solidification Behavior in Faceted Crystal”, Proc. the second International Conference on Solidification and Gravity (Apr. 25-28, 1995, Miskolc, Hungary) pp. 339-346.
  17. [Link] K. Kuribayashi, Y. Inatomi, S. Endoh and H. Sakuta: “Anomalous Temperature Distribution at Faceted Interface during Unidirectional Solidification”, Proc. International Centre for Heat and Mass Transfer (ICHMT) Symposium on Molecular and Microscale Heat Transfer in Materials Processing and Other Applications (Dec. 4, 1996, Yokohama) pp. 263-271.
  18. K. Kuribayashi, Y. Inatomi and T. Matsuyama: “In-situ Observation of Liquid-Phase Mass Transport in Peritectic Crystal Growth”, Proc. 3rd China-Japan Workshop on Microgravity Science (Oct. 1996, Xian, China) pp. 280-284.
  19. [Link] Y. Inatomi and K. Kuribayashi: “Direct Observation of LPE Growth Behavior of Compound Semiconductor Crystal in Magnetic Field”, Proc. IN SPACE ’94 (Nov. 1994, Tokyo, Japan), pp. 222-230.
  20. [Link] T. Yoshida, Y. Inatomi and K. Kuribayashi: “In-situ Observation of Faceted Cellular Array Growth in Transparent Organic Material”, Proc. IUMRS-ICAM-93 3A (Aug., 1994, Tokyo, Japan) pp.637-641.
  21. Y. Inatomi and K. Kuribayashi: “Real-time observation of faceted cellular growth”, Proc. 1st China-Japan Workshop on Microgravity Science (May 10, 1993, Beijing, China) pp. 93-96.
  22. [Link] K. Kuribayashi, E. Sato, Y. Inatomi and T. Fujiwara: “Development of Optical System for In-situ Observation of Solidification and Crystal Growth in Space”, Proc. 4th International Conference of the Experimental Methods for Microgravity Marterials Science (Mar. 1992, San Diego, USA) pp. 43-49.
  23. [Link] Y. Inatomi and K. Kuribayashi: “In situ measurement technique for solution growth in compound semiconductors”, Proc. SPIE Int. Symp. 1557 (Jul., 1991, San Diego, USA) pp. 132-139.

査読なしプロシーディング論文

  1. [Link] Yuko Inatomi, Yasuhiro Hayakawa, Mukannan Arivanandhan, Kyoichi Kinoshita, Yasutomo Arai, Izumi Yoshizaki, Masahiro Takayanagi: “Japanese Crystal Growth Research on International Space Station”, Proc. of the 15th Takayanagi Kenjiro memorial symposium (Nov. 12-13, 2013, Shizuoka University, Japan) pp. S6-1-1 - S6-1-5.
  2. [Link] M. Omprakash, M.Arivanandhan, R. Arun Kumar, H. Morii, T. Aoki, T. Koyama, Y. Momose, H. Ikeda, H. Tatsuoka, Y. Okano, T. Ozawa, Y. Inatomi, S. Moorthy Babu and Y. Hayakawa: “Temperature Gradient Effect on Dissolution and Growth Process of SiGe Bulk Crystal”, Proc. of the 15th Takayanagi Kenjiro memorial symposium (Nov. 12-13, 2013, , Shizuoka University, Japan) pp. S4-14-1 - S4-14-5.
  3. [Link] M. Arivanandhan, M. Omprakash, R. Arun Kumar, T. Koyama, Y. Momose, A. Tanaka, H. Ikeda, G. Ravi, T. Tatsuoka, A. Ishida, S. Bhattacharya, D.K. Aswal, S. Moorthy Babu, Y. Inatomi and Y. Hayakawa: “Thermoelectric characteristics of compositionally homogeneous Si1-xGex bulk crystals”, Proc. of the 14th Takayanagi Kenjiro memorial symposium (Nov. 27-28, 2012,, Shizuoka University, Japan) pp. S2-3-1 - S2-3-5.
  4. [Link] M. Omprakash, M. Arivanandhan, R. Arun Kumar, H. Morii, T. Aoki, T. Koyama, Y. Momose, H. Ikeda, H. Tatsuoka,Y. Okano, T. Ozawa, Y. Inatomi, S. Moorthy babu and Y. Hayakawa: “In-situ observations of dissolution process of Si into Ge melt and SiGe growth by X-ray penetration method”, Proc. of the 14th Takayanagi Kenjiro memorial symposium (Nov. 27-28, 2012, Shizuoka University, Japan), pp. S3-7-1 - S3-7-5.
  5. [Link] Y. Hayakawa, M. Arivanandhan, Y. Saito, T. Koyama, Y. Momose, H. Ikeda, A. Tanaka, C. Wen, Y. Kubota, T. Nakamura, D.K. Aswal, S. Bhattachary, S. Moorthy Babu, Y. Inatomi and H. Tatsuoka: “Growth of homogeneous Mg2Si1-xGex crystals for thermoelectric application”, Proc. APAC-SILICIDE 2010 (Jul. 26, 2010, EPOCAL Tsukuba, Tsukuba, Ibaraki, Japan) 26-AM-VI-8.
  6. Yuko Inatomi, Junya Yamada, Takao Maki, Ken Nagashima, Atul Srivastava, Katsuo Tsukamoto: “In situ observation for crystallization of undercooled silicate droplet”, Proc. The 2nd International Symposium “Interface Mineralogy” in conjunction with The 2nd International workshop “Crystallization in The Early Solar Nebula 4.6 Billion Years Ago” (Mar., 2009, Sendai, Japan) p. 21.
  7. Yuko Inatomi, Kensuke Higuchi, Takao Maki and Nobuaki Ishii: “Crystal growth of salol under short-duration microgravity condition”, Proc. Japan-Netherlands Symposium on Crystal Growth -Theory and in situ Measurements- (2008, Sapporo, Japan) p. 22.
  8. T. Hirai, Y. Takagi, Y. Inatomi, Y. Abe, S. Usuba, M. Suzuki, S. Mori, Y. Suda, O. Shimizu, H. Kino, Y. Kanno, Y. Kato, S. Shimada, S. Hiraga, K. Yamazaki, K. Yagi, N. Yonekyu: “DIAMOND SYNTHESIS IN MICROGRAVITY ENVIRONMENT WITH SOUNDING ROCKET S-520-24”, Proc. 2007 Biennial International Symposium of ELGRA (2007, Florence, Italy) p.183.
  9. Yujiro Yamada, Yuko Inatomi, Hiroshi Kawamura: “Convecting behavior of low Prandtl number fluid heated on centrifuge”, Proc. Multiscale and Functionally Graded Materials Conference 2006 (2006) p. 21
  10. [Link] 大西史倫, 長汐晃輔, 稲富裕光, 栗林一彦: ”シリコン浮遊融液の熱伝導率測定”, Japan Journal of Thermophysical Properties 26 (2005) pp. 475-477.
  11. Yuko Inatomi: “Visualization of solid/liquid interface in semiconductor solution growth”, Proc. Interface Mineralogy 2005 (2005, Sendai, Japan) p. 35.
  12. [Link] 大西史倫, 長汐晃輔, 稲富裕光, 栗林一彦: “静磁場における電磁浮遊融液のその場観察”, Japan Journal of Thermophysical Properties 25 (2004) pp. 186-188.
  13. [Link] 稲富裕光, 大西史倫, 田中朋弘, 篠崎直人, 渡辺匡人, 藤本明良, 伊藤公平: “静磁場を利用した73Ge融液の自己拡散係数の測定”, Japan Journal of Thermophysical Properties 25 (2004) pp. 189-191.
  14. D. C. Yin, Y. Inatomi, N. I. Wakayama, W. D. Huang, and K. Kuribayashi: “Strong magnetic field effect on dissolution process of tetragonal lysozyme crystals”, Proc. 34th COSPAR SCIENTIFIC ASSEMBLY, THE SECOND WORLD SPACE CONGRESS (Oct., 2002, Houston, USA) p. 230.
  15. [Link] M. Kikuchi, Y. Inatomi, K. Kuribayashi and I. Jimbo: “Morphological Stability of Growth Interface from Solution in Semiconductor”, Transactions of the Materials Research Society of Japan 27 (2002) pp. 795-797.
  16. [Link] Y. Nagata, Y. Inatomi, K. Kuribayashi, J. Matsushita: “Growth of Lysozyme Crystal under Static and Homogeneous Magnetic Field”, Transactions of the Materials Research Society of Japan 27 (2002) pp. 779-781.
  17. [Link] T. Miyake, Y. Inatomi and K. Kuribayashi: “Interdiffusion coefficient of liquid In-Sn under high magnetic field”, Transactions of the Materials Research Society of Japan 27 (2002) pp. 751-754.
  18. D. Yin, Y. Inatomi, Y. Nagata and K. Kuribayashi: “In-situ Study of the Effect of Magnetic Field on Protein Concentration Change during Crystal Growth”, Proc. 13th International Conference on Crystal Growth (Aug., 2001, Kyoto) p. 566.
  19. [Link] Y. Inatomi, A. Takada and K. Kuribayashi: “Vertical Bridgman Growth of Semiconductor in a Strong Magnetic Field”, Transactions of the Materials Research Society of Japan 25 (2000) pp. 525-527.
  20. [Link] A. Kato, K. Horiuchi, Y. Inatomi and K. Kuribayashi: “In-situ observation of semiconductor crystal growth from solution in a high static magnetic field”, Transactions of the Materials Research Society of Japan 25 (2000) pp.529-531.
  21. [Link] Y. Nagata, Y. Inatomi and J. Matsushita: “Observation of the Growth Process of Protein Crystals Under High Magnetic Field”, Journal of Advanced Science 12 (2000) pp. 65-66.
  22. [Link] Y. Nagata, J. Matsushita and Y. Inatomi: “Nucleation and Growth Process of Protein Crystals Under High Magnetic Field”, Journal of Advanced Science 11 (1999) pp. 61-62.
  23. Y. Inatomi, S. Aoki, K. Kuribayashi, Y. Sawada: “Influence of Magnetic Field on LPE Growth Behavior in Semiconductor”, Proc. 7th Topical Meeting on Crystal Growth Mechanism (Jan. 19-21, 1994, Atagawa, Japan) pp. 151-155.

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