査読付き原著論文

2017年

  1. [Link] Xin Jin, Takuya Yamamoto, Youhei Takagi, Yasunori Okano, Yuko Inatomi, Yasuhiro Hayakawa and Sadik Dost: “A Numerical Study on the Dissolution Process of InGaSb under Zero Gravity”, International Journal of Microgravity Science Application 34 (2017) pp. 340206 1-7.
  2. [Link] K. Kuribayashi, S. Ozawa, K. Nagayama, Yuko Inatomi: “Crystallization kinetics in Si-1 at%Sn during rapid solidification in undercooled melt”, Journal of Crystal Growth 468 (2017) pp. 73-78.
  3. [Link] Yuki Kimura, Kyoko K. Tanaka, Takaya Nozawa, Shinsuke Takeuchi and Yuko Inatomi: “Pure iron grains are rare in the universe”, Science Advances 3 (2017) pp. e1601992 1-7.

2016年

  1. [Link] Takuya Yamamoto, Haryo Mirsandi, Xin Jin, Youhei Takagi, Yasunori Okano, Yuko Inatomi, Yasuhiro Hayakawa, and Sadik Dost: “Numerical simulation model by volume averaging for the dissolution process of GaSb into InSb in a sandwich system”, Numerical Heat Transfer, Part B 70 (2016) pp. 441-458.
  2. [Link] Nirmal Kumar Velu, Mukkannan Arivanandhan, Tadanobu Koyama, Haruhiko Udono, Yuko Inatomi, Yasuhiro Hayakawa: “Effects of varying indium composition on the thermoelectric properties of InxGa1−xSb ternary alloys”, Applied Physics A 122 (2016) pp. 885 1-5.
  3. [Link] Kyoichi Kinoshita, Yasutomo Arai, Yuko Inatomi, Takao Tsukada, Hiroaki Miyata, Ryota Tanaka: “Effects of Temperature Gradient in the Growth of Si0.5Ge0.5 Crystals by the Traveling Liquidus-Zone Method on board the International Space Station”, Journal of Crystal Growth 455 (2016) pp. 49-54.
  4. [Link] Takuma Osada, Yoshitaka Hashimoto, Momoko Tomaru, Shinsuke Suzuki, Yuko Inatomi, Yuichi Ito and Taro Shimaoka: “Improvement of Interference Fringe Analysis for Soret Coefficient Measurement in Soret-Facet Mission”, International Journal of Microgravity Science Application 33 (2016) pp. 330400 1-6.
  5. [Link] V. Nirmal Kumar, M. Arivanandhan, G. Rajesh, T. Koyama, Y. Momose, K. Sakata, T. Ozawa, Y. Okano, Y. Inatomi and Y. Hayakawa: “Investigation of directionally solidified InGaSb ternary alloys from Ga and Sb faces of GaSb(111) under prolonged microgravity at the International Space Station”, npj Microgravity 2 (2016) pp. 16026 1-7.
  6. [Link] Kyoichi Kinoshita, Yasutomo Arai, Yuko Inatomi, Takao Tsukada, Hiroaki Miyata, Ryota Tanaka, Keita Abe, Sara Sumioka, Masaki Kubo, Satoshi Baba: “SiGe Crystal Growth by the Traveling Liquidus-Zone Method aboard the International Space Station”, International Journal of Microgravity Science Application 33 (2016) pp. 330213 1-5.
  7. [Link] Kazuhiko Kuribayashi, Malahalli Shankaregowda, Vijaya Kumar, Yuko Inatomi: “Containerless Processing of Metastable Multiferroic Composite in R-(Mn, Fe)-O System (R: rare-earth element)”, International Journal of Microgravity Science Application 33 (2016) pp. 330215 1-7.
  8. [Link] Jianding Yu, Yan Liu, Xiuhong Pan, Hongyang Zhao, Velu Nirmal Kumar, Mukannan Arivanandhan, Yoshimi Momose, Yasuhiro Hayakawa, Xingwang Zhang, Xinghong Luo, Yasuhiro Okano, and Yuko Inatomi: “A Review on InGaSb Growth under Microgravity and Terrestrial Conditions Towards Future Crystal Growth Project Using Chinese Recovery Satellite SJ-10”, Microgravity Science and Technology 28 (2016) pp. 143-154.
  9. [Link] M. Omprakash, M. Arivanandhan, M. Sabarinathan, T. Koyama, Y. Momose, H. Ikeda, H. Tatsuoka, D.K. Aswal, S. Bhattacharya, Y. Inatomi, and Y. Hayakawa: “Vertical gradient solution growth of N-type Si0.73Ge0.27 bulk crystals with homogeneous composition and its thermoelectric properties”, Journal of Crystal Growth 442 (2016) pp. 102-109.

2015年

  1. [Link] Y. Inatomi, K. Sakata, M. Arivanandhan, G. Rajesh, V. Nirmal Kumar, T. Koyama, Y. Momose, T. Ozawa, Y. Okano and Y. Hayakawa: “Growth of InxGa1-xSb alloy semiconductor at the International Space Station (ISS) and comparison with terrestrial experiments”, npj Microgravity 1 (2015) pp. 15011 1-6.
  2. [Link] H. Mirsandi, T. Yamamoto, Y. Takagi, Y. Okano, Y. Inatomi, Y. Hayakawa, S. Dost: “A Numerical Study on the Growth Process of InGaSb Crystals Under Microgravity with Interfacial Kinetics”, Microgravity Science and Technology 27 (2015) pp. 313-320.
  3. [Link] Kazuhiko Kuribayashi, Hirotaka Kato, Katsuhisa Nagayama, Yuko Inatomi, and Malahalli Vijaya Kumar: “Experimental Verification of Criterion for Forming Metastable Phase in Containerless Solidification”, Journal Applied Physics 117 (2015) pp. 154905 1-9.
  4. [Link] K. Kinoshita, Y. Arai, T. Tsukada, Y. Inatomi, H. Miyata and R. Tanaka: “SiGe crystal growth aboard the International Space Station”, Journal of Crystal Growth 417 (2015) pp. 31–36.
  5. [Link] Muthusamy Omprakash, Mukannan Arivanandhan, Tadanobu Koyama, Yoshimi Momose, Hiroya Ikeda, Hirokazu Tatsuoka, Dinesh Aswal, Shovit Bhattacharya, Yasunori Okano, Tetsuo Ozawa, Yuko Inatomi, Sridharan Moorthy Babu, Yasuhiro Hayakawa: “High power factor of Ga-doped compositionally homogeneous Si0.68Ge0.32 bulk crystal grown by the vertical temperature gradient freezing method”, Crystal Growth & Design 15 (2015) pp. 1380−1388.
  6. [Link] K. Kinoshita, Y. Arai, Y. Inatomi, T. Tsukada, H. Miyata, R. Tanaka, J. Yoshikawa, T. Kihara, H. Tomioka,H. Shibayama, Y. Kubota, Y. Warashina, Y. Sasaki, Y. Ishizuka, Y. Harada, S. Wada, T. Ito, N. Nagai, K. Abe, S. Sumioka, M. Takayanagi and S. Yoda: “Compositional uniformity of a Si0.5Ge0.5 crystal grown on board the International Space Station”, Journal of Crystal Growth 419 (2015) pp. 47–51.

2014年

  1. [Link] K. Abe, S. Sumioka, K. Sugioka, M. Kubo, T. Tsukada, K. Kinoshita, Y. Arai and Y. Inatomi: “Numerical simulations of SiGe crystal growth by the traveling liquidus-zone method in microgravity environment”, Journal of Crystal Growth 402 (2014) pp. 71-77.
  2. [Link] K. Sakata, M. Mukai, G. Rajesh, M. Arivanandhan, Y. Inatomi, T. Ishikawa, Y. Hayakawa: “Viscosity of Molten InSb, GaSb, and InxGa1-xSb alloy semiconductors”, International Journal of Thermophysics 35 (2014) pp. 352-360.
  3. [Link] Yuko Inatomi, Motohiro Ashida, Kaoruho Sakata, and Takeshi Okutani: “Simultaneous measurement of temperature and concentration during faceted cellular array growth under microgravity”, World Journal of Engineering 11 (2014) pp. 41-48.
  4. [Link] Veerabagu Natarajan, Mukannan Arivanandhan, Yuko Inatomi, Yasuhiro Hayakawa: “In-situ observation of faceted growth of benzophenone single crystals from melt”, Materials Chemistry and Physics 144 (2014) pp. 402-408.
  5. [Link] K. Kinoshita, Y. Arai, Y. Inatomi, T. Tsukada, H. Miyata, R. Tanaka, J. Yoshikawa, T. Kiharae, H.Tomioka, H. Shibayama, Y. Kubota, Y. Warashina, Y. Sasaki, Y. Ishizuka,Y. Harada, S. Wada, C. Harada, M. Takayanagi and S. Yoda: “Growth of a Si0.50Ge0.50 crystal by the traveling liquidus-zone (TLZ) method in microgravity”, Journal of Crystal Growth 388 (2014) pp. 12–16.
  6. [Link] M. Omprakash, M. Arivanandhan, R. Arun Kumar, H. Morii, T. Aoki, T. Koyama, Y. Momose, H. Ikeda, H.Tatsuoka, Y. Okano, T. Ozawa, S. Moorthy Babu, Y. Inatomi and Y. Hayakawa: “Analysis of dissolution and growth process of SiGe alloy semiconductor based on penetrated X-ray intensities”, Journal of Alloys and Compounds 590 (2014) pp. 96–101.
  7. [Link] K. Sakata, M. Mukai, G. Rajesh, M. Arivanandhan, Y. Inatomi, T. Ishikawa, Y. Hayakawa: “Thermal properties of molten InSb, GaSb, and InxGa1−xSb alloy semiconductor materials in preparation for crystal growth experiments on the international space station”, Advances in Space Research 53 (2014) pp. 689–695.
  8. [Link] Yuko Inatomi, Yuki Kimura, Katsuo Tsukamoto, Yoshiki Takagi, Shinsuke Takeuchi, Nobuaki Ishii: “S-520 Sounding Rocket Experiments of Materials Science under Microgravity”, Transactions of the Japan Society for Aeronautical and Space Sciences, Aerospace Technology Japan 12 (2014) pp. Th_31-Th_34.
  9. [Link] Yuhi Mori, Yoshitaka Hashimoto, Shinsuke Suzuki, and Yuko Inatomi: “Investigation of the Application of a Two-wavelength Mach-Zehnder Interferometer to Measure Soret Coefficients”, Transactions of the Japan Society for Aeronautical and Space Sciences, Aerospace Technology Japan 12 (2014) pp. Ph_37-Ph_40.
  10. [Link] K. Sakata, M. Midori, M. Arivanandhan, G. Rajesh, T. Ishikawa, Y. Inatomi and Y. Hayakawa: “Crystal Growth of Ternary Alloy Semiconductor and Preliminary Study for Microgravity Experiment at the International Space Station”, Transactions of the Japan Society for Aeronautical and Space Sciences, Aerospace Technology Japan 12 (2014) pp. Ph_31-Ph_35.

2013年

  1. [Link] 阪田薫穂, 向井碧, Govindasamy Rajesh,Mukannan Arivanandan, 稲富裕光, 石川毅彦, 早川泰弘: “国際宇宙ステーションでの結晶成長実験に関する溶融InGaSbの粘度測定”, 熱物性 27 (2013) pp. 152-156.

2012年

  1. [Link] Takeshi Okutani, Tsuyoshi Hamada, Yuko Inatomi and Hideaki Nagai: “Properties of p-Si-Ge Thermoelectrical Material Solidified from Undercooled Melt Levitated by Simultaneous Imposition of Static and Alternating Magnetic Fields”, Solidification of Containerless Undercooled Melts, edited by D. M. Herlach and D. M. Matson, Wiley-VCH (2012) pp. 425-449.
  2. [Link] Yuko INATOMI, Kaoruho SAKATA, Mukannan ARIVANANDHAN, Govindasamy RAJESH, Yasuhiro HAYAKAWA, Akira TANAKA, Tetsuo OZAWA, Yasunori OKANO, Takehiko ISHIKAWA, Masahiro TAKAYANAGI, Shinichi YODA, Yoshinori YOSHIMURA: “Current Status of Alloy Semiconductor Crystal Growth Project under Microgravity”, Transactions of the Japan Society for Aeronautical and Space Sciences, Aerospace Technology Japan 10 (2012) pp. Th_1-Th_4.
  3. [Link] Y. Inatomi, I. Yoshizaki, K. Sakata, T. Shimaoka, T. Sone, T. Tomobe, S. Adachi, S. Yoda, Y. Yoshimura:: “Investigation on Mechanism of Faceted Cellular Array Growth in International Space Station”, Defect and Diffusion Forum 323-325 (2012) pp 533-537.
  4. [Link] M. Arivanandhan, G. Rajesh, A. Tanaka, T. Ozawa, Y. Okano, Y. Inatomi, Y. Hayakawa: “Bulk Growth of InGaSb Alloy Semiconductor under Terrestrial Conditions: A Preliminary Study for Microgravity Experiments at ISS”, Defect and Diffusion Forum 323-325 (2012) pp. 539-544.

2011年

  1. [Link] Yasuhiro Hayakawa, Mukannan Arivanandhan, Yosuke Saito, Tadanobu Koyama, Yoshimi Momose, Hiroya Ikeda, Akira Tanaka, Cuilian Wen, Yoshihiro Kubota, Tamotsu Nakamura, Shovit Bhattacharya, Dinesh Kumar Aswal, Sridharan Moorthy Babu, Yuko Inatomi, Hirokazu Tatsuoka: “Growth of homogeneous polycrystalline Si1-xGex and Mg2Si1-xGex for thermoelectric application”, Thin Solid Films 519 (2011) pp. 8532–8537.
  2. [Link] K. Kinoshita, Y. Arai, Y. Inatomi, H. Miyata, R. Tanaka, T. Sone, J. Yoshikawa, T. Kihara, H. Shibayama, Y. Kubota, T. Shimaoka, Y. Warashina, K. Sakata, M. Takayanagi and S. Yoda: “Homogeneous SiGe crystal growth in microgravity by the travelling liquidus-zone method”, Journal of Physics: Conference Series327 (2011) pp. 012017-012022.
  3. [Link] M. ARIVANANDHAN, G. RAJESH, T. KOYAMA, Y. MOMOSE, K. SANKARANARAYANAN, A. TANAKA, Y. HAYAKAWA, T. OZAWA, Y. OKANO and Y. INATOMI: “Crystal Growth of InGaSb Alloy Semiconductor at International Space Station: Preliminary Experiments”, Journal of the Japan Society of Microgravity Application 28 (2011) pp. S46-S50.
  4. [Link] Kyoichi KINOSHITA, Yasutomo ARAI, Hiroaki MIYATA, Ryota TANAKA, Takehiko SONE, Junichi YOSHIKAWA, Takashi KIHARA, Hiroharu SHIBAYAMA, Yuko Inatomi, Masahiro TAKAYANAGI, and Shinichi YODA: “Growth of SiGe Crystals by the Travelling Liquid Zone (TLZ) Method –Preliminary Experiments on the Ground-”, Journal of the Japan Society of Microgravity Application 28 (2011) pp. S5-S8.
  5. [Link] G. Rajesh, M. Arivanandhan, N. Suzuki, A. Tanaka, H. Morii, T. Aoki, T. Koyama, Y. Momose, T. Ozawa, Y. Inatomi, Y. Takagi, Y. Okano and Y. Hayakawa: “Effects of Solutal Convection on the Dissolution of GaSb into InSb Melt and Solute Transport Mechanism in InGaSb Solution: Numerical Simulations and In-situ Observation Experiments”, Journal of Crystal Growth 324 (2011) pp. 157-162.
  6. [Link] Kyoichi Kinoshita, Satoshi Adachi, Yuko Inatomi, Hiroaki Miyata, Ryota Tanaka, Yasutomo Arai and Shinichi Yoda: “Homogeneous Si0.5Ge0.5 Crystal Growth by the Traveling Liquidus-Zone (TLZ) Method”, Advances in the Astronautical Sciences 138 (2011) pp. 647-653.
  7. [Link] M. Arivanandhan, Y. Saito, T. Koyama, Y. Momose, H. Ikeda, A. Tanaka, T. Tatsuoka, D.K. Aswal, Y. Inatomi and Y. Hayakawa: “Growth of Si1−xGex bulk crystals with highly homogeneous composition for thermoelectric applications”, Journal of Crystal Growth 318 (2011) pp. 324–327.

2010年

  1. [Link] Jincheng WANG and Yuko INATOMI: “Three-dimensional Phase Field Modeling of the Faceted Cellular Growth”, ISIJ International 50 (2010) pp. 1901–1907.
  2. [Link] G. Rajesh, M. Arivanandhan, H. Morii, T. Aoki, T. Koyama, Y. Momose, A. Tanaka, T. Ozawa, Y. Inatomi and Y. Hayakawa: “In-situ observations of dissolution process of GaSb into InSb melt by X-ray penetration method”, Journal of Crystal Growth 312 (2010) pp. 2677-2682.
  3. [Link] Yuko Inatomi, Atul Srivastava, Hisao Satoh, Takao Maki, Katsuo Tsukamoto: “Real-time optical system for observing crystallization in levitated silicate melt droplets”, Review of Scientific Instruments 81 (2010), pp. 073708-073712.
  4. [Link] Atul Srivastava, Yuko Inatomi, Katsuo Tsukamoto Takao Maki, and Hitoshi Miura: “In situ visualization of crystallization inside high temperature silicate melts”, Journal of Applied Physics 107 (2010) pp. 114907-114913.
  5. [Link] Y. Hayakawa, M. Arivanandhan, G. Rajesh, A. Tanaka, T. Ozawa, Y. Okano, K. Sankaranarayanan and Y. Inatomi: “Alloy Semiconductor Crystal Growth under Microgravity”, AIP conference proceedings 1313 (2010) pp. 45- 49.

2009年

  1. [Link] Takehiko Ishikawa, Tatsuaki Hashimoto, Shujiro Sawai, Yoshitaka Saito, Yuko Inatomi, Tetsuo Yoshimitsu, Shinichiro Sakai, Hiroaki Kobayashi, Kazuhisa Fujita, Nobutaka Bando: “Microgravity Experiment System using Free-fall Capsule from a High Altitude Balloon(Result of the 2nd Test Flight)”, Transactions of the Japan Society for Aeronautical and Space Sciences, Aerospace Technology Japan (ists26) 7 (2009) pp. 29-33.

2008年以前

【2008年】

  1. [Link] Yuko Inatomi: “Convective Behavior Of Low Prandtl Number Fluid Heated On Centrifuge”, AIP Conference Proceedings 973 (2008) pp. 482-487.
  2. [Link] D. C. Yin, Y. Inatomi, H. M. Luo, H. S. Li, H. M. Lu, Y. J. Ye and N. I. Wakayama: “Interferometry measurement of protein concentration evolution during crystallization and dissolution with improved reliability and versatility”, Measurement Science and Technology 19 (2008) 45303.
  3. [Link] S. Sawai, T. Hashimoto, S. Sakai, N. Bando, H. Kobayashi, K. Fujita, T. Yosihmitsu, T. Ishikawa, Y. Inatomi, H. Fuke, Y. Kamata, S. Hoshino, K. Tajima, S. kadooka, S. Uehara, T. Kojima, S. Ueno, K. Miyaji, N. Tsuboi, K. Hiraki, K. Suzuki, K. Matsushima, and T. Nakata: “Development of vehicle for balloon-based microgravity experiment and its flight results”, Journal of the Japan Society for Aeronautical and Space Sciences 56 (2008), pp. 339-346.
  4. [Link] 石川毅彦, 稲富裕光, 橋本樹明, 澤井秀次郎, 斎藤芳隆, 吉光徹雄, 坂井真一郎, 小林弘明, 藤田和央, 坂東信尚, 後藤雅享,“高高度気球を利用した微小重力実験(第2 回試験飛行)”, 日本マイクログラビティ応用学会誌 25 (2008) pp. 3-10.

 

【2007年】

  1. [Link] Y. Inatomi, F. Onishi, K. Nagashio, and K. Kuribayashi: “Density and Thermal Conductivity Measurements for Silicon Melt by Electromagnetic Levitation under a Static Magnetic Field”, International Journal of Thermophysics 28 (2007) pp. 44-59.
  2. [Link] Y. INATOMI, T. ISHIKAWA, T. HASHIMOTO, S. SAWAI, H. KOBAYASHI, K.FUJITA, N. BANDO, M. GOTO, I. JIMBO and H. YAMAKAWA: “First test flight of microgravity experiment system using free-fall capsule released from high altitude balloon”, Journal of the Japan Society of Microgravity Application 24 (2007) pp. 296-300.
  3. [Link] Da-Chuan Yin, Nobuto I. Wakayama, Hui-Meng Lu, Ya-Jing Ye, Hai-Sheng Li, Hui-Min Luo and Yuko Inatomi: “Uncertainties in crystallization of hen-egg white lysozyme: reproducibility issue”, Crystal Research and Technology 43 (2007) pp.447-454.

 

【2006年】

  1. [Link] Y. Inatomi: “Buoyancy convection in cylindrical conducting melt with low Grashof number under uniform static magnetic field”, International Journal of Heat and Mass Transfer 49 (2006) pp. 4821-4830.
  2. [Link] 大西史倫, 長汐晃輔, 稲富裕光, 栗林一彦: “重畳磁場電磁浮遊法を用いたシリコン浮遊融液の密度測定”, 日本マイクログラビティ応用学会誌 23 (2006) pp. 26-29.
  3. [Link] 稲富裕光, 石川毅彦, 橋本樹明, 澤井秀次郎, 斉藤芳隆, 吉光徹雄, 坂井真一郎, 小林弘明, 藤田和央, 坂東信尚, 後藤雅享, 神保至, 山川宏: “高高度気球からの微小重力実験用自由落下カプセルの第一回試験飛行”, 日本マイクログラビティ応用学会誌 23 (2006) pp. 197-203.
  4. [Link] Fumitomo ONISHI, Yuko INATOMI, Tomohiro TANAKA, Naoto SHINOZAKI, Masahito WATANABE, Akira FUJIMOTO, and Kouhei ITOH: “Time-of-Flight Secondary Mass Spectrometry Analysis of Isotope Composition for Measurement of Self-Diffusion Coefficient”, Japanese Journal of Applied Physics 45 (2006) pp. 5274-5276.
  5. [Link] F. Onishi, T. Miyake, Y. Inatomi and K. Kuribayashi: “Measurements of interdiffusion coefficients in metallic melts at high temperature under horizontal static magnetic field”, Microgravity Science and Technology XVIII-3/4 (2006) pp. 86-90.
  6. [Link] G.N. Kozhemyakin, L.V. Zolkina, Y. Inatomi: “Influence of Ultrasound on Crystal Growth from Solution and Related Flow Visualization”, Crystal Growth & Design 6 (2006) pp. 2412-2416.

 

【2005年】

  1. [Link] Y. Inatomi, M. Kikuchi, R. Nakamura, K. Kuribayashi, I. Jimbo: “In situ observation for semiconductor solution growth using a near-infrared microscope”, Journal of Crystal Growth 275 (2005) pp. 193–200.
  2. [Link] Yue Wang, Katsuaki Kudo, Yuko Inatomi, Rongbin Ji, Tetsuichi Motegi: “Growth interface of CdZnTe grown from Te solution with THM technique under static magnetic field”, Journal of Crystal Growth 284 (2005) pp. 406-411.
  3. [Link] Yue Wang, Katsuaki Kudo, Yuko Inatomi, Rongbin Ji, Tetsuichi Motegi: “Growth and structure of CdZnTe crystal from Te solution with THM technique under static magnetic field”, Journal of Crystal Growth 275 (2005) pp. e1551–e1556.
  4. [Link] Taro Shimaoka, Hiroyuki Kagi, Makoto Natsuisaka, Satoshi Adachi, Yuko Inatomi: “Determination of Butanol Distribution on Salol-Butanol Crystals using Raman Spectroscopy”, Microgravity Science and Technology XVI-I (2005) pp. 104-106.

 

【2004年】

  1. [Link] W.D. Huang, X. Lin, Tao Li, L.L. Wang and Y. Inatomi: “A time-dependent interface stability during directional solidification of a single phase alloy (Ⅱ) Comparison with experimental results”, Acta Physica Sinica 53 (2004) pp. 3978-3983.
  2. [Link] Yue Wang, Quanbao Li, Qinglin Han, Qinghua Ma, Rongbin Ji, Bingwen Song, Wanqi Jie, Yaohe Zhou, Yuko Inatomi: “Growth and Properties of 40mm Diameter Hg1-xCdxTe Using the Two- Stage Pressurised Bridgman Method”, Journal of Crystal Growth 273 (2004) pp. 54–62.
  3. [Link] Yue Wang, Quanbao Li, Qinglin Han, Qinghua Ma, Bingwen Song, Wanqi Jie, Yaohe Zhou, Yuko Inatomi: “A two-stage technique for single crystal growth of HgCdTe using a pressurized Bridgman method”, Journal of Crystal Growth 263 (2004) pp. 273–282.

 

【2003年】

  1. [Link] D. C. Yin, N.I. Wakayama, Y. Inatomi, W.D. Huang, K. Kuribayashi: “Strong Magnetic Field Effect on the Dissolution Process of Tetragonal Lysozyme Crystals”, Advances in Space Research 32 (2003) pp. 217-223.
  2. [Link] D. C. Yin, Y. Inatomi, N. I. Wakayama, W. D. Huang: “Measurement of Temperature and Concentration Dependences of Refractive Index of Hen-egg-white Lysozyme Solution”, Crystal Research and Technology 38 (2003) pp. 785-792.
  3. [Link] Y. Inatomi, and K. Kuribayashi: “In Situ Observation Experiment for Semiconductor Solution Growth under Reduced Convection Condition - a review”, Crystal Research and Technology 38 (2003) pp. 535-541.

 

【2002年】

  1. [Link] D.C. Yin, Y. Inatomi, N.I. Wakayama, and W.D. Huang, K. Kuribayashi: “An investigation of magnetic field effects on the dissolution of lysozyme crystal and related phenomena”, Acta Crystallographica, Section D: Biological Crystallography 58 (2002) pp. 2024-2030.
  2. [Link] T. Miyake, Y. Inatomi and K. Kuribayashi: “Measurement of Diffusion Coefficient in Liquid Metal under Static Magnetic Field”, Japanese Journal of Applied Physics 41 (2002) pp. L811-L813.
  3. [Link] Y. Inatomi and K. Kuribayashi: “Morphological Stability of GaP(111)B in LPE under Static Magnetic Field”, Journal of Crystal Growth 241 (2002) pp.395-403.
  4. [Link] Y. Inatomi, K. Horiuchi, A. Kato and K. Kuribayashi: “Growth Kinetics of GaP in LPE”, Journal of Crystal Growth 237-239 (2002) pp. 1428-1433.

 

【2001年】

  1. [Link] D. Yin, Y. Inatomi and K. Kuribayashi: “Study of Lysozyme Crystal Growth under a Strong Magnetic Field Using a Mach-Zehnder Interferometer”, Journal of Crystal Growth 226 (2001) pp. 534-542.

 

【2000年】

  1. [Link] Y. Inatomi, A. Kato, K. Horiuchi and K. Kuribayashi: “Scaling Analysis of Semiconductor Crystal Growth from the Liquid Phase in an Axis Static Magnetic Field”, Materials Transactions, JIM 41 (2000) pp. 1026-1033.
  2. [Link] D. C. Yin and Y. Inatomi: “Measurement of Refractive Index of GaP Crystal Over a Large Temperature Range Using Interferometry”, Crystal Research and Technology 35 (2000) pp. 221-228.

 

【1999年以前】

  1. [Link] Y. Inatomi and K. Kuribayashi: “Morphological Change of GaP Growth Interface in LPE under Static Magnetic Field”, Journal of Space Technology and Science 15 (1999) pp.1-10.
  2. [Link] Y. Inatomi, S. Aoki, K. Kuribayashi and Y. Sawada: “Growth and Dissolution Rates on GaP(111)B Facet Surface During Solution Growth Under a Transverse Static Magnetic Field”, Crystal Research and Technology 33 (1998) pp. 857-866.
  3. [Link] Y. Inatomi, A. Takada and K. Kuribayashi: “Morphological change of semiconductor growth interface from solution in a magnetic field”, Journal of Crystal Growth 198/199 (1999) pp. 176-181.
  4. [Link] Y. Inatomi, P. Dold, A.N. Danilewsky and K.W. Benz: “In situ Observation Setup for Semiconductor Growth Interface from Solution in a Magnetic Field”, Crystal Research and Technology 32 (1997) pp. 759-768.
  5. [Link] Y. Inatomi, O. Kitajima, W. Huang, K. Kuribayashi and Y. Sawada: “Directional Solidification of Faceting Material in a Centrifuge”, Crystal Research and Technology 32 (1997) pp. 947-954.
  6. [Link] W. Huang, Y. Inatomi and K. Kuribayashi: “Initial Transient Solute Redistribution During Directional Solidification with Liquid Flow”, Journal of Crystal Growth 182 (1997) pp. 212-218.
  7. [Link] 栗林一彦, 稲富裕光, 早崎和久, 茂木徹一: “二液相分離過程における動的光散乱法適用の試み”, 日本マイクログラビティ応用学会誌 13 (1996) pp. 84-88.
  8. [Link] 稲富裕光, 青木澄男, 栗林一彦, 沢田豊: “化合物半導体のLPE成長界面形態に及ぼす液相中の流れの影響”, 日本結晶成長学会誌 21 (1994) pp. S155-S160.
  9. [Link] T. Higashino, Y. Inatomi and K. Kuribayashi: “In-situ observation of unidirectional solidification in transparent organic alloy”, Journal of Crystal Growth 128 (1993) pp. 178-182.
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  13. Y. Inatomi, T. Yoshida and K. Kuribayashi: “Real-time Observation of Faceted Cellular Growth”, Microgravity Quarterly 3 (1993) pp. 93-96.
  14. [Link] Y. Inatomi and K. Kuribayashi: “Real-time measurement of LPE growth rate in GaP”, Journal of Crystal Growth 114 (1991) pp. 380-388.
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  16. [Link] 稲富裕光, 寺嶋(大竹)和夫, 松岡秀樹, 山本良一, 堂山昌男: “1次元物質ブルーブロンズの電気的メモリー現象を利用した記憶素子の試作”, 日本金属学会誌 51 (1987) pp. 879-880.

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