Research result ( ESL*1 / BOV*2 )

*1:Electrostatic Levitation , *2:Balloon-based Operation Vehicle
Papers in Japanese, released orally or in writing or prize awarded, are excluded from the following lists below. Please refer to the original Japanese pages in order to confirm the entire text.

[ESL] paper

  1. Very sharp diffraction peak in liquid Er2O3 with crystal-like homology 2020.06.12up!
    C. Koyama, S. Tahara, S. Kohara, Y. Onodera, D. R. Småbråten, S. M. Selbach, J. Akola, T. Ishikawa, A. Masuno, A. Mizuno, J. T. Okada, Y. Watanabe, Y. Nakata, K. Ohara, H. Tamaru, H. Oda, I. Obayashi, Y. Hiraoka, O. Sakata
    NPG Asia Materials 12 (2020), 43.

  2. Accurate synchrotron hard X-ray diffraction measurements on high-temperature liquid oxides 2020.06.12up!
    K. Ohara, Y. Onodera, S. Kohara, C. Koyama, A. Masuno, A. Mizuno, J. T. Okada, S. Tahara, Y. Watanabe, H. Oda, Y. Nakata, H. Tamaru, T. Ishikawa, O. Sakata
    Int. J. Microgravity Sci. Appl. 37 (2020), 370202.

  3. Unequal Effect of Thermodynamics and Kinetics on Glass Forming Ability of Cu-Zr alloys 2020.06.12up!
    S. Ganorkar, Y.-H. Lee, S. Lee, Y. C. Cho, T. Ishikawa, G. W. Lee
    AIP Advances 10 (2020), 045114.

  4. Thermophysical properties of molten Si-Cr and Si-Fe Alloys 2020.06.12up!
    S. Kawanishi, M. Abe, C. Koyama, T. Ishikawa, H. Shibata
    Journal of Crystal Growth 541 (2020), 125658.

  5. Phase Relation between Supercooled Liquid and Amorphous Silicon 2020.06.12up!
    J. T. Okada, P. H.-L. Sit, R. Ishikawa, T. Ishikawa, J. Chen, K. S. Nakayama, K. Maeda, Y. Yokoyama, Y. Watanabe, P. -F. Paradis, Y. Watanabe, S. Nanao, Y. Ikuhara, K. Kimura, and S. Uda
    Appl. Phys. Lett. 116 (2020), 093705.

  6. Density of molten Gadolinium oxide measured with the electrostatic levitation furnace in the International Space Station 2020.06.12up!
    T. Ishikawa, C. Koyama, H. Saruwatari, H. Tamaru, H. Oda, M. Ohshio, Y. Nakamura, Y. Watanabe, Y. Nakata
    High Temp.- High Press 49 (2020), 5-15.

  7. Bioinspired nacre-like alumina with a bulk-metallic glass-forming alloy as a compliant phase
    A. Wat, J. I. Lee, C. W. Ryu, B. Gludovatz, J. Y. Kim, A. P. Tomsia, T. Ishikawa, J. Schmitz, A. Meyer, M. Alfreider, D. Kiener, E. S. Park, and R. O. Ritchie
    Nature communications (2019)10:961.

  8. Spectral emissivity and constant pressure heat capacity of liquid titanium measured by an electrostatic levitator
    T. Ishikawa, C. Koyama, Y. Nakata, Y. Watanabe, and P.-F. Paradis
    J. Chem. Thermodynamics 131 (2018), 557-562.

  9. Origin of glass forming ability of Cu-Zr alloys: A link between compositional variation and stability of liquid and glass
    S. Ganorkar, S. Lee, Y.-H. Lee, T. Ishikawa, and G.W. Lee
    Physical Review Matirials 2 (2018), 115606.

  10. Status of the electrostatic levitation furnace (ELF) in the ISS-KIBO
    H. Tamaru, C. Koyama, H. Saruwatari, Y. Nakamura, T. Ishikawa, and T. Takada
    Microgravity Science and Technology 30 (2018), 643-651.

  11. Status of the Electrostatic Levitation Furnace in the ISS – Evaluation of Sample Position Control -
    T. Ishikawa, C. Koyama, H. Tamaru, H. Saruwatari, M. Ohshio, Y. Nakamura
    Int. J. Microgravity Sci. Appl. 35 (2018), 350205.

  12. Investigation of structure and dynamics in disordered materials using containerless techniques with in-situ quantum beam and thermophysical property measurements
    S. Kohara, K. Ohara, T. Ishikawa, H. Tamaru, R. Weber
    Quantum Beam Sci. 2 (2018), 5.

  13. Thermophysical properties of Zr-O liquid alloys measured by electrostatic levitation
    Y. Ohishi, T. Kondo, T. Ishikawa, J. T. Okada, Y. Watanabe, H. Muta, K. Kurosaki, S. Yamanaka
    Int. J. Microgravity Sci. Appl. 35 (2018), 350105.

  14. Challenges of handling processing and studying liquid and supercooled materials at temperatures above 3000 K with electrostatic levitation
    T. Ishikawa, P.-F. Paradis
    Crystals 7 (2017), 309.

  15. Precise density measurement of liquid titanium by electrostatic levitator
    S. Ozawa, Y. Kudo, K. Kuribayashi, Y. Watanabe, and T. Ishikawa
    Materials Transactions 58 (2017), 1664-1669. The Japan Institute of Light Metals

  16. Spectral emissivity and constant pressure heat capacity of molten platinum measured with an electrostatic levitator
    T. Ishikawa, J. T. Okada, P.-F. Paradis, Y. Watanabe
    J. Chem. Thermodynamics 112 (2017), 7-12.

  17. Physical properties of molten core materials: Zr-Ni and Zr-Cr alloys measured by electrostatic levitation,
    Y. Ohishi, T. Kondo, T. Ishikawa, J. T. Okada, Y. Watanabe, H. Muta, K. Kurosaki, and S. Yamanaka
    Journal of Nuclear Materials 485 (2017), 129-136.

  18. Spectral emissivity and constant pressure heat capacity of molten nickel and rhodium measured by spectrometers combined with an electrostatic levitator
    T. Ishikawa, J. T. Okada, P.-F. Paradis, Y. Watanabe
    J. Chem. Thermodynamics 103 (2016), 107-114.

  19. Thermophysical properties of Zr-Fe alloys measured by electrostatic levitation
    Y. Ohishi, H. Muta, K. Kurosaki, S. Yamanaka, J. T. Okada, T. Ishikawa and Y. Watanabe
    J. Nucl. Sci. Technol. 53 (2016), 1881.

  20. Non-Contact Measurement of Thermophysical Properties of Fe, Fe-C, and Fe-C-Mn Alloys in Solid, Supercooled, and Stable Liquid Phases
    S. Jeon, D. –H. Kang, S. H. Kang, S. E. Kang, J. T. Okada, T. Ishikawa, S. Lee, G. W. Lee
    ISIJ International 56 (2016), 719-722.

  21. Synchrotron X-ray scattering measurements of disordered materials
    S. Kohara, K. Ohara, H. Tajiri, C. H. Song, O. Sakata, T. Usuki,Y. Benino, A. Mizuno, A. Masuno, J. T. Okada, T. Ishikawa, and S. Hosokawa,
    Z. Phis. Chem. (2015) 0654.

  22. FT-IR Emissivity Measurements of Nb Melt using an Electrostatic Levitation Furnace
    K. Sakata, Y. Watanabe, J. T. Okada, M. V. Kumar, P. –F. Paradis, T. Ishikawa
    J. Chem. Thermodynamics 91 (2015), 116-120.

  23. Visualizing the mixed bonding properties of liquid boron with high resolution x-ray Compton scattering
    J. T. Okada, P. H.-L. Sit, Y. Watanabe, B. Barbiellini, T. Ishikawa, Y.J. Wang, M. Itou, Y. Sakurai, A. Bansil, R. Ishikawa, M. Hamaishi, P.-F. Paradis, K. Kimura, T. Ishikawa, and S.Nanao
    Phys. Rev. Lett. 114 (2015), 177401.

  24. Surface tension and viscosity measurement of highly viscous melt using a sample rotation
    T. Ishikawa, J. Okada, P. -F. Paradis, Y. Watanabe, M. Watanabe
    Int. J. of Microgravity Sci. Appl. 32 (2015),320106.

  25. Atomic and electronic structures of an extremely fragile liquid
    S. Kohara, J. Akola, L. Patrikeev, M. Ropo, K. Ohara, M. Itou, A. Fujiwara, J. Yahiro, J. T. Okada, T. Ishikawa, A. Mizuno, A Masuno, Y. Watanabe, and T. Usuki
    Nat. Commun. 5 (2014), 5892.

  26. Surface tension measurement using sample rotation combined with electrostatic levitation
    T. Ishikawa, J. T. Okada, P.-F. Paradis, Y. Watanabe, M. V. Kumar, M. Watanabe
    JJAP 53 (2014), 126601.

  27. Fabrication of Advanced Glass and Ceramics by Containerless Levitation Process
    M. V. Kumar, T. Ishikawa, J. T. Okada, and Y. Watanabe
    Trans. JSASS Aerospace Tech. Japan 12 ists29 (2014), Ph-25-29.

  28. Density Measurement of Glass and Liquid CaAl2O4 using a Pressurized Electrostatic Levitator
    M. V. Kumar, J. T. Okada, T. Ishikawa, P.-F. Paradis, Y. Watanabe
    Meas. Sci. Technol. 25 (2014) 085301.

  29. Thermophysical Properties of Platinum Group Metals in their Liquid Undercooled and Superheated Phases
    P. -F. Paradis, T. Ishikawa, and J. T. Okada
    Johnson Matthey Technol. Review. 58 (2014), 124-136.

  30. Thermal and optical properties of glass and crystalline phases formed in the binary R2O3-Al2O3 (R=La-Lu and Y) system
    M. V. Kumar, T. Ishikawa, B. Basavalingu, J. T. Okada, and Y. Watanabe
    J. Appl. Phys. 113 (2013), 193503.

  31. Nano-sized nucleus-supercooled liquid interfacial free energy and thermophysical properties of early and late transition liquid metals
    D.-H. Kang, S. Jeon, H. Yoo, T. Ishikawa, J. T. Okada, P.-F. Paradis, G.W. Lee
    Crystalgrowth &amp design 14(2014), 1103-1109.

  32. Materials properties measurements and particle beam interactions studies using electrostatic levitation
    P.-F. Paradis, T. Ishikawa, G.-W. Lee, D. Holland-Moritz, J. Brillo, W.-K. Rhim, J. T. Okada
    Materials Science and Engineering: R: 76 (2014), 1-53.

  33. Viscosity of molten Mo, Ta, Os, Re, and W measured by electrostatic levitation
    T. Ishikawa, P.-F Paradis, J. Okada, M. V. Kumar, Y. Watanabe
    J.of Chemical Thermodynamics 65 (2013), 1-6.

  34. Microstructure and Magnetic Properties of Metastable RFeO3(R: Rare-earth element) Formed from Undercooled Melt
    V. Kumar, K. Kuribayashi, J. Yu, J. T. Okada, T. Ishikawa
    J. Am. Cer. Soc.96 (2013), 955-1002.

  35. Spectral emissivity measurements of liquid refractory metals by spectrometers combined with an electrostatic levitator
    T. Ishikawa, Y. Ito, J. T. Okada, P. –F. Paradis, Y. Watanabe, and T. Masaki
    Meas. Sci. Technol. 23 (2012), 125602.

  36. Two-Dimensional Time-Resolved X-ray Diffraction Study of Liquid/solidFraction in Fe-C Binary System with an Electrostatic Levitator Furnace
    M.Yonemura, J.Okada, Y.Watanabe, T. Ishikawa, S. Nanao, T. Shobu, A. Shiro, T. Fujishiro, and H. Toyokawa
    Chinese Journal of Physics 50 (2012), 243

  37. Real-time X-ray diffraction of metastable phases during solidification from the undercooled LuFeO3 melt by two-dimensional detector at 1kHz
    M.V. Kumar, K. Kuribayashi, T. Ishikawa, J. Okada, J. Yu, S. Yoda, K. Nagashio, Y. Katayama
    Appl.Phys.Lett 100 (2012), 191905.

  38. Persistence of Covalent Bonding in Liquid Silicon Probed by Inelastic X-ray Scattering
    J. T. Okada, P. H.-L. Sit, Y. Watanabe, Y. J. Wang, B. Barbiellini, T. Ishikawa, M. Itou, Y. Sakurai, A. Bansil, R. Ishikawa, M. Hamaishi, T. Masaki, P.-F. Paradis, K. Kimura, T. Ishikawa, and S. Nanao
    Phys. Rev. Lett. 108 (2012), 067402.

  39. Viscosity measurements of molten refractory metals using an electrostatic levitator
    T. Ishikawa, P.-F. Paradis, J. T. Okada, Y. Watanabe
    Meas. Sci. Technol. 23 (2012), 025305.

  40. Phase selection in the undercooled melts of RMn3 (R= rare earth) using containerless solidification technique
    V. Kumar, K. Kuribayashi, J. Yu, M. Kaneko, T. Ishikawa, S. Yoda
    J. Jpn. Soc. Microgravity Appl. 28 (2011), S51-56

  41. Thermophysical Property Measurements of High Temperature Melts Using an Electrostatic Levitation Method
    T. Ishikawa, J.T. Okada, P.-F. Paradis, Y. Watanabe
    JJAP 50 (2011), 11RD03.

  42. Hybrid Processing Combining Electrostatic Levitation and Laser Heating: Application to Terrestrial Analogues of Asteroid Materials
    P.-F. Paradis,T. Ishikawa, Y. Watanabe, J. Okada
    Advances in Optical Technologies (2011), 454829.

  43. Supercooling of homogeneous liquid metals and alloys – poor supercooling around the eutectic composition of liquid Ni-Nb system –
    T. Itami, J.Okada, Y. Watanabe, T. Ishikawa, S. Yoda
    Materials Transactions 51 (2010), 1510-1515.

  44. Viscosity of liquid boron
    J. T. Okada, T. Ishikawa, Y. Watanabe, P.-F. Paradis, K. Kimura
    Physical Review B 81 (2010), 140201®

  45. ThermophysicalProperty Measurements of Liquid Gadolinium by Containerless Methods
    T. Ishikawa, J.T. Okada, P.-F.Paradis, and Y. Watanabe
    Int. J. Thermophys 31 (2010), 388-398.

  46. Surface tension and viscosity of molten vanadium measured with an electrostatic levitation furnace
    J. T. Okada, T. Ishikawa, Y. Watanabe, P. –F. Paradis
    J. of Chemical Thermodynamics 42 (2010), 856-859.

  47. Volume and enthalpy relaxation in Zr55Cu30Ni5Al10 bulk metallic glass
    O. Haruyama, Y. Nakayama, R. Wada, H. Tokunaga, J. Okada, T. Ishikawa, Y. Yokoyama
    Acta Materialia, 58 (2010), 1829-1836.

  48. Noncontact thermophysical property measurements of refractory metals using an electrostatic levitator
    T. Ishikawa and P.-F. Paradis
    High-Temperature Measurements of Materials, Ed. by H. Fukuyama and Y. Waseda, Springer Berlin Heidelberg, 2009

  49. Effects of the positioning force of electrostatic levitators on viscosity measurements
    T. Ishikawa, P.-F. Paradis, N. Koike, Y. Watanabe
    Rev. Sci. Instrum.80 (2009), 013906.

  50. Noncontact thermophysical property measurement of liquid cerium by electrostatic levitation
    J. Li, T. Ishikawa, J. T. Okada,Y. Watanabe, J. Yu, S. Yoda, Z. Yuan
    J of Materials Research 24 (2009), 2449-2452.

  51. Volume and viscosity of Zr-Cu-Al glass-forming liquid alloys
    Y. Yokoyama, T. Ishikawa, J.T. Okada, Y. Watanabe, S. Nanao, A. Inoue
    J. of Non-Crystalline Solids355 (2009), 317-322.

  52. Structure and thermophysical properties of molten BaGe using electrostatic levitation technique
    A. Ishikura, A. Mizuno, M. Watanabe, T. Masaki, T. Ishikawa, S. Yoda
    Int. J. Thermophysics 29 (2008), 2015-2024.

  53. Density of liquid gold measured by a non-contact technique
    P.-F. Paradis, T. Ishikawa, N. Koike
    Gold Bulletin 41/3 (2008), 242-244

  54. Microstructure formation and in situ phase identification from undercooled Co–61.8 at.% Si melts solidified on an electromagnetic levitator and an electrostatic levitator
    M. Li, K. Nagashio, T. Ishikawa, A. Mizuno, M. Adachi, M. Watanabe, S. Yoda, K. Kuribayashi, Y.Katayama
    Acta Materialia 56 (2008), 2514–2525

  55. Study of Molten Lanthanum, Praseodymium, and Neodymium by Electrostatic Levitation
    P.-F. Paradis, T. Ishikawa, N. Koike, and Y. Watanabe
    J of Jpn Soc. of Microgravity Appl. 25 (2008), 407-412.

  56. Thermophysical Property Measurements of Liquid and Supercooled Cobalt
    P.-F. Paradis, T. Ishikawa, N. Koike
    High Temp.-High Press., 37 (2008), 5-11

  57. Development of non-contact electrical resistivity measurement technique using an electrostatic levitator
    T. Ishikawa, P.-F. Paradis, Y. Watanabe,N. Koike
    J of Jpn Soc. of Microgravity Appl.25 (2008), 399-402.

  58. Experiments in materials science on the ground and in reduced gravity using electrostatic levitators
    P.-F. Paradis, T. Ishikawa, S. Yoda
    Advances in Space research 41 (2007),2118

  59. Microtexture formation of Ni99B1 alloys solidified on an ESL and an EML -- a study based on the EBSP technique
    M. Li, T. Ishikawa, K. Nagashio, K. Kuribayashi, and S. Yoda
    Mater. Sci. Eng. A, 449/451(2007), 684-688

  60. PhysicalProperties of Liquid Terbium Measured by Levitation Technique
    P.-F. Paradis, T. Ishikawa, N. Koike, Y. Watanabe
    JournalofRare Earths 25 (2007), 665

  61. Thermophysical properties of the melt of AlPdMn icosahedral quasicrystal
    R. Ishikawa, T. Ishikawa, J. T. Okada, T. Masaki, Y. Watanabe, S. Nanao
    Phi.l Mag. 87 (2007), 2965-2971

  62. Influence of Sample Size on the Viscosity Measurement of Molten Metals with an Electrostatic Levitation Method
    N. Koike, T. Ishikawa, P.-F. Paradis, H. Tomioka, Y. Watanabe, S. Yoda, T. Motegi
    J of Jpn Soc. of Microgravity Appl. 24 (2007), 154

  63. Compact electrostatic levitator for diffraction measurements with a two axis diffractometer and a laboratory x-ray source
    T. Masaki, T. Ishikawa, P.-F. Paradis, S. Yoda, J. T. Okada, Y. Watanabe, S. Nanao, A. Ishikura, K. Higuchi, A. Mizuno, M. Watanabe, S. kohara
    Rev. Sci. Instrum. 78 (2007), 026102

  64. Structure analysis of molten Ba-Ge alloys using electrostatic levitation technique combined with high-energy x-ray diffraction,
    A. Ishikura, A. Mizuno, M. Watanabe, T. Masaki, T. Ishikawa, S. Kohara
    J Am. Ceram. Soc90 (2007),738-741

  65. Non-contact measurements of the surface tension and viscosity of molybdenum using an electrostatic levitation furnace
    P.-F. Paradis, T. Ishikawa, N. Koike
    InternationalJournal of Refractory Metals and Hard Materials 25 (2007), 95-100

  66. A comparative EBSP study of microstructure and microtexture formation from undercooled Ni99B1 melts solidified on an electrostatic levitator and an electromagnetic levitator
    M. Li, T. Ishikawa, K. Nagashio, K. Kuribayashi and S. Yoda
    Acta mater. 54 (2006), 3791-3799.

  67. Physical properties of equilibrium and non-equilibrium liquid osmium measured by levitation techniques
    P.-F. Paradis, T. Ishikawa, N. Koike
    JAP 100 (2006), 103523

  68. Density Measurement ofMolten CaF2 by an Electrostatic Levitator
    I. Minato,H. Fukuyama,T. Ishikawa,P.-F. Paradis,J. Yu, S. Yoda
    Int. J. of Thermophysics 27 (2006), 1173-1180

  69. Solidification andthermophysical property studies of barium titanate using electrostatic levitation furnace
    J. Yu, T. Ishikawa, P.-F. Paradis
    Journal of Crystal Growth 292 (2006), 480-484.

  70. Density Measurements of Mould Flux Slags By Electrostatic Levitation Method
    T. Matsushita, T. Ishikawa, P.-F. Paradis, K. Mukai, S. Seetharaman
    ISIJ International 46 (2006), 606-610

  71. Non-contact surface tension and viscosity measurements of molten oxides with a pressurized hybrid electrostatic-aerodynamiclevitator
    T. Ishikawa, J. Yu, P.-F. Paradis
    Rev. Sci. Instrum. 77 (2006), 053901

  72. Thermophysical properties of molten tungsten measured with an electrostatic levitatoion
    P.-F. Paradis.T.Ishikawa, R. Fujii, S. Yoda
    Heat Transfer - Asian Research, 35 (2006), 152-164

  73. Macroscopic properties of liquids at very high temperature
    F. Millot, P.-F. Paradis, J.-C. Rifflet, T. Ishikawa
    Int. J. Materials and Product Technology, 26(2006), 274-291.

  74. Non-contact Thermophysical Property Measurements of Liquid and Supercooled platinum
    T. Ishikawa, P.-F. Paradis and N. Koike
    JJAP 45(2006), 1719-1724

  75. Electrostatic Levitation Research and Development at JAXA: past and Present Activities in Thermophysics
    P.-F. Paradis, T. Ishikawa, S. Yoda
    Int. J. of Thermophysics26 (2005), 1031-1049

  76. Surface Tension and Viscosity Measurements of Liquid and Undercooled Alumina by Containerless Techniques
    P. -F. Paradis, T. Ishikawa
    JJAP 44(2005), 5082-5085.

  77. Thermophysical properties of molten refractory metals measured by an electrostatic levitator
    T. Ishikawa and P.-F. Paradis
    Journal of Electronic Materials34 (2005), 1526-1532

  78. Thermophysical properties of molten tungsten measured with an electrostatic levitator
    T. Ishikawa, P. -F. Paradis, R. Fujii, S. Yoda
    Netsubussei, 19(2005),61-66

  79. Ground-based thermophysical property measurements of supercooled and liquid platinum-group metals by electrostatic levitation
    P.-F. Paradis, T. Ishikawa, and S. Yoda
    Microgravity Sci. technol,. XVI-I (2005), 94-98

  80. Noncontact density measurements of liquid, undercooled, and high temperature solid boron
    P. -F. Paradis, T. Ishikawa, and S. Yoda
    Appl. Phys. Lett., 86(2005), 151901

  81. Viscosity of Liquid and Undercooled Tungsten
    P. -F. Paradis, T. Ishikawa, and S. Yoda
    J. Appl. Phys.,97 (2005), 106101

  82. Surface tension and viscosity of liquid and undercooled tantalum measured by a containerless method
    P. -F. Paradis, T. Ishikawa, S. Yoda
    J. Appl. Phys. 97(2005), 053506

  83. Physical Properties of Liquid and Undercooled Tungsten by Levitation Techniques
    P. -F. Paradis, T. Ishikawa, R. Fujii, and S. Yoda
    Appl. Phys. Lett86(2005), 41901

  84. Non-contact property measurements of liquid and supercooled ceramics with a hybrid electrostatic-aerodynamic levitation furnace
    P. -F. Paradis, T. Ishikawa
    Measurement Science and Technology,16 (2005),452-456

  85. Non-contact thermophysical property measurements of refractory metals using an electrostatic levitator
    T. Ishikawa, P. -F. Paradis, T. Itami, S. Yoda
    Measurement Science and Technology, 16 (2005), 443-451

  86. Thermophysical property measurements of liquid and supercooled iridium by containerless methods
    T. Ishikawa ,P. -F. Paradis, R. Fujii, Y. Saita, S. Yoda
    Int. J. Thermophysics 26 (2005), 893-904

  87. Property Measurements and Solidification Studies by Electrostatic Levitation
    P.-F. Paradis, J. Yu, T. Ishikawa, and S. Yoda
    Ann. N. Y. Acad. Sci. 1027 (2004), 464-473

  88. Containerless Property Measurements of Liquid Palladium
    P.-F. Paradis, T. Ishikawa, Y. Saita, S. Yoda
    Int. J of Thermophysics 25 (2004), 1905-1912

  89. Thermophysical Property Measurements of Molten Nickel Using an Electrostatic Levitation Furnace
    T. Ishikawa, P. -F. Paradis, Y. Saita
    J. Japan Inst. Metals. 68 (9) (2004), 781-786

  90. Noncontact surface tension and viscosity measurements of rhenium in the liquid and undercooled states
    T. Ishikawa, P. -F. Paradis, and S. Yoda
    Appl. Phys. Lett, 85 (2004),5866-5868

  91. Non-contact thermophysical property measurements of liquid and undercooled alumina
    P. -F. Paradis, T. Ishikawa, Y. Saita, and S. Yoda
    JJAP 43(2004), 1496-1500

  92. Thermophysical properties of liquid and supercooled ruthenium measured by noncontact methods
    P. -F. Paradis, T. Ishikawa, and S. Yoda
    J of Materials Research,19(2004), 590-594

  93. Contactless density measurement of liquid and high temperature solid BiFeO3 and BaTiO3
    P. -F. Paradis, J. Yu, T. Ishikawa, T. Aoyama, and S. Yoda
    Applied Phys. A, 79(2004), 1965-1969.

  94. Thermophysical Property Measurements of Supercooled and Liquid Rhodium
    P. -F. Paradis, T. Ishikawa,S. Yoda
    Int. J. of Thermophysics24 (2003), 1121-1136

  95. Importance of sample rotation control for containerless material processing on the ground and in microgravity
    P. -F. Paradis, T. Ishikawa, T. Aoyama, S. Yoda
    J. Jpn. Soc. Microgravity Appl 20 (2003), 218-225

  96. Non-Contact Measurement Technique of the Vapor Pressure of High Temperature Solid and Liquid Materials
    P. -F. Paradis, T. Ishikawa, S. Yoda
    European J. Phys. Appl. Phys.,22 (2003), 97-101

  97. Contactless density measurement of liquid Nd-doped 50%CaO-50%Al2O3
    P. -F. Paradis, J. Yu, T. Aoyama, T. Ishikawa, S. Yoda
    J. Am. Ceram. Soc.86 (2003), 2234-2236

  98. Noncontact density measurements of tantalum and rhenium in the liquid and undercooled states
    P. -F. Paradis, T. Ishikawa, and S. Yoda
    Applied Physics Letters.,83(2003), 4047-4049

  99. Contactless density measurement of superheated and undercooled liquid Y3Al5O12
    P. -F. Paradis, J. Yu, T. Ishikawa, T. Aoyama, S. Yoda, J.K.R. Weber
    Cryst. Growth, 249 (2003), 523-530

  100. Thermophysical properties of liquid refractory metals: comparison between hard sphere model calculation and electrostatic levitation measurements
    T. Ishikawa, P. -F. Paradis, T. Itami, and S. Yoda
    J. of Chemical Physics, 118, (2003), 7912-7920

  101. Electrostatic levitation method for containerless material processing in microgravity
    T. Ishikawa, P.-F. Paradis, J. Yu, Y. Arai, N. Koshikawa, S. Yoda
    the journal of space technology and science, 18(2002), 8-16

  102. Development of an electrostatic levitator for neutron diffraction structure analysis
    H. Aoki, P.-F. Paradis, T. Ishikawa, T. Aoyama, T. Masaki, S. Yoda, Y.Ishii, T. Itami
    Rev. Sci. Instrm., 74 (2003), 1147-1149

  103. Position stability analysis of electrostatically levitated samples for thermophysical and structural properties measurements of materials
    P.-F. Paradis, T. Ishikawa, and S. Yoda
    Space Technol. 22 (2002), 81-92

  104. Thermophysical properties of vanadium at high temperature measured by an electrostatic levitation furnace
    P.-F. Paradis, T. Ishikawa, T. Aoyama, S. Yoda
    J. Chem. Thermodynamics, 34 (2002), 1929-1942

  105. Non-contact measurements of thermophysical properties of hafnium-3%(Wt) zirconium at high temperature
    P.-F. Paradis, T. Ishikawa,S. Yoda
    Int. J. Thermophys. 24(2002) ,239-258

  106. Non-contact measurements of thermophysical properties of molybdenum at high temperature
    P.-F. Paradis, T. Ishikawa, S. Yoda
    Int. J. Thermophys. 23(2002), 555-569

  107. Non-contact Measurements of Surface Tension and Viscosity of Niobium, Zirconium and Titanium Using an Electrostatic Levitation Furnace
    P.-F. Paradis, T. Ishikawa, S. Yoda
    Int. J. Thermophys., 23(2002), 825-842

  108. Electrostatic levitation furnace for structural studies of high temperature liquid metals by neutron scattering experiments
    P.-F. Paradis, T. Ishikawa, S. Yoda
    Journal of Non-Crystalline Solids, 312-314(2002), 309-313

  109. Non-contact measurements of thermophysical properties of niobium at high temperature
    P.-F. Paradis, T. Ishikawa, S. Yoda
    J. Mater. Sci. 36 (2001), 5125-5130

  110. New sample levitation initiation and imaging techniques for the processing of refractory metals with an electrostatic levitator furnace
    T. Ishikawa, P.-F. Paradis, S. Yoda
    Rev. Sci. Instrum.,72(2001), 2490

  111. An hybrid electrostatic-aerodynamic levitation furnace for the high temperature processing of oxide materials on the ground
    P.-F. Paradis, T. Ishikawa, S. Yoda
    Rev. Sci. Instrum., 72(2001), 2811

[ESL] Oral

  1. Melt properties of Si-40 mol% Cr solvent and their influence to temperature and flow control in the SiC solution growth 2019.04.26up!
    S. Kawanishi, H. Daikoku, T. Ishikawa, M. Abe, H. Shibata, T. Yoshikawa
    European Conference on Silicon Carbide and Related Materials (ECSCRM 2018) WE.01a.04, Birmingham, (Sep. 2018)

  2. Thermophysical Property Measurements of Molten Oxides by the Electrostatic Levitation Furnace onboard the International Space Station 2019.04.26up!
    C. KOYAMA, H. TAMARU, H. SARUWATARI, Y. NAKAMURA, T. ISHIKAWA
    COSPAR 42nd assembly Pasadena, (Jul. 2018)

  3. Interfacial phenomena and thermophysical properties of molten steel and oxides
    M. Watanabe, T. Tanaka, T. Tsukada, T. Ishikawa, H. Tamaru
    Joint Conference ISPS-7 & ELGRA-25 Juan-les-Pins, France (Oct. 2017).

  4. Status of Experiments in the Electrostatic Levitation Furnace (ELF) for the ISS-KIBO
    H. Tamaru, C. Koyama, H. Saruwatari, Y. Nakamura, T. Ishikawa, T. Takada
    Joint Conference ISPS-7 & ELGRA-25 Juan-les-Pins, France (Oct. 2017).

  5. THERMOPHYSICAL PROPERTY MEASUREMENTS USING THE ELECTROSTATIC LEVITATION FURNACE ON THE ISS
    H. Tamaru, Y. Nakamura, H. Saruwatari, C. Koyama, T. Ishikawa,
    21st European Conference on Thermophysical Properties PMSHT – O16 Graz (Sep. 2017).

  6. Summary of ALLOY SEMICONDUCTOR Project
    Y. Inatomi, N. K. Velu, M. Arivanandhan, T. Yamamoto, X. Jin, H. Mirsandi, Y. Okano, Y. Hayakawa, T. Ishikawa
    31st ISTS 2017-h-23 Matsuyama (Jun. 2017).

  7. Thermophysical Property Measurements of High Temperature Melts using Electrostatic Levitation Method
    T. Ishikawa, P.-F. Paradis, Y. Watanabe, J. T. Okada
    31st ISTS, 2017-h-19 Matsuyama, (Jun. 2017).

  8. Thermophysical Properties of Zr-O liquid Alloys Measured by Electrostatic Levitation
    Y. Ohishi, T. Kondo, T. Ishikawa, J. T. Okada, Y. Watanabe, H. Mut , K. Kurosaki , S. Yamanaka
    31st ISTS, 2017-h-18 Matsuyama, (Jun. 2017).

  9. Measurements of Interfacial Tension between Molten Oxide and Steel Melt using Electrostatic Levitation Furnace (ELF) in ISS (INTERFACIAL ENERGY Project)
    M. Watanabe, T. Tanaka, T. Tsukada, H. Tamaru, T. Ishikawa
    31st ISTS, 2017-h-16, Matsuyama, (Jun. 2017).

  10. Status and Prospects of Electrostatic Levitation Furnace (ELF) Experiment in ISS-KIBO
    H. Tamaru, C. Koyama, H. Saruwatari, Y. Nakamura, T. Ishikawa, T. Takada
    31st ISTS, 2017-h-15, Matsuyama, (Jun. 2017).

  11. Electrostatic Levitation for Materials Science Studies on the Ground in Reduced Gravity and on a Lunar Outpost
    P.-F. Paradis, T. Ishikawa, W.-K. Rhim, J. T. Okada
    31st ISTS, 2017-h-14, Matsuyama, (Jun. 2017).

  12. Thermophysical Property of Supercooled-liquid Silicon
    J. T. Okada, T. Ishikawa, P.-F. Paradis, Y. Watanabe, S. Uda
    31st ISTS, 2017-h-12, Matsuyama, (Jun. 2017).

  13. Emissivity Measurements of Liquid Ni and Rh with an Electrostatic Levitator
    T. Ishikawa, Y. Watanabe, J. T. Okada, P.-F. Paradis
    11th Asian Microgravity Symposium, 28Ele-3 Sapporo, (Oct. 2016).

  14. Operation Status of the Electrostatic Levitation Furnace (ELF) in the ISS-KIBO
    H. Tamaru, S. Yukizono, H. Saruwatari, Y. Nakamura, T. Ishikawa, T. Takada,Y. Sakai
    11th Asian Microgravity Symposium, 29Ele-2 Sapporo, (Oct. 2016).

  15. Interfacial Phenomena and Thermophysical Properties of Molten Steel and Oxides
    M. Watanabe, T. Tanaka, T. Tsukada, T. Ishikawa, H. Tamaru
    11th Asian Microgravity Symposium, 29Ele-1K Sapporo, (Oct. 2016).

  16. Round Robin Test of Surface Tension Measurement of Liquid Titanium by Containerless Technique
    S. Ozawa, Y. Kudo, K. Kuribayash, Y. Watanabe, T. Ishikawa
    11th Asian Microgravity Symposium, 27thFu-1K Sapporo.(Oct. 2016).

  17. Thermophysical properties of Zr-O liquid alloys measured by electrostatic levitation
    Y. Ohishi, F. Nakamori, H. Muta, K. Kurosaki, J. T. Okada, T. Ishikawa, Y. Watanabe, S. Yamanaka
    the 11th Asian Thermophysical Properties Conference, P-115, Yokohama ,(Oct. 2016).

  18. Precisely Density Measurement of Liquid titanium using Electrostatic Levitation
    Y. Kudo, S. Ozawa, K. Kuribayashi, Y. Watanabe, T. Ishikawa
    the 11th Asian Thermophysical Properties Conference, P109 Yokohama ,(Oct. 2016)..

  19. Thermophysical Property Measurements of High Temperature Melts by Electrostatic Levitation Furnace (ELF) in the ISS
    H. Tamaru, S. Yukizono, H. Ohkuma, H. Saruwatari, Y. Nakamura, T. Ishikawa
    the 11th Asian Thermophysical Properties Conference, OS17-12 Yokohama ,(Oct. 2016)..

  20. Surface Tension of Liquid Titanium measured by Electromagnetic Levitation and Electrostatic Levitation
    Y. Kudo, S. Ozawa, K. Kuribayashi, Y. Watanabe, T. Ishikawa
    the 11th Asian Thermophysical Properties Conference, OS17-03 Yokohama ,(Oct. 2016).

  21. Structure of Liquid Rhodium
    J. T. Okada, Y. Watanabe, T. Ishikawa, S. Kohara, P.-F. Paradis, S. Nanao
    16th International Conference on Liquid and Amorphous Metals (LAM-16), P29 Bonn, (Sep. 2016).

  22. High resolution x-ray Compton scattering of high temperature liquids using electrostatic levitator
    J. T. Okada, P.H.–L. Sit, Y. Watanabe, B. Barbiellini, T. Ishikawa, Y. J. Wang, M. Itou, Y. Sakurai, A. Bansil, P.-F. Paradis, K. Kimura, S. Nanao
    16th International Conference on Liquid and Amorphous Metals (LAM-16), C61 Bonn, (Sep. 2016).

  23. Thermophysical Properties of Supercooled-liquid Silicon
    J. T. Okada, T. Ishikawa, Y. Watanabe, P. –F. Paradis, S. Uda
    The 18th International Conference on Crystal Growth and Epitaxy (ICCGE18) ,Th2-T02-7 Nagoya (Aug.2016)

  24. Thermophysical Properties of Molten Zr-Fe Alloys Measured by Electrostatic Levitation
    Y. Ohishi, H. Muta, K. Kurosaki, S. Yamanaka, J. T. Okada, T. Ishikawa
    3rd Asian Zirconium Workshop, Tsuruga (Oct. 2015)

  25. Development and operation of the electrostatic levitation furnace (ELF) for the ISS
    H. Tamaru, S. Yukizono, H. Ohkuma, H. Saruwatari, Y. Nakamura, J. T. Okada, T. Ishikawa, T. Takada, N. Fujino, H. Sasaki, Y. Sakai
    6th International Symposium on Physical Sciences in Space, Kyoto, (Sep. 2015), 17Th-5.

  26. Thermophysical property measurements of high temperature melts using electrostatic levitators
    T. Ishikawa, J. T. Okada, Y. Watanabe
    6th International Symposium on Physical Sciences in Space, Kyoto, (Sep. 2015), 16Ma/Th-1K.

  27. Bonding characteristics of high temperature liquids studied by electrostatic levitator
    J. T. Okada, P.-L. Sit, T. Ishikawa, Y. Watanabe, B. barbiellini, A. Bansil, M. Itou, Y. Sakurai, K. Kimura, S. Nanao
    6th International Symposium on Physical Sciences in Space, Kyoto, (Sep. 2015), 16Th-1.

  28. Thermophysical Property Measurements of Oxide Melts at High Temperature by Electrostatic Levitation Furnace on the ISS
    T. Ishikawa, J. T. Okada, Y. Watanabe, H. Tamaru, Y. Nakamura
    30th ISTS, Kobe (Jul. 2015) 2015-h-07

  29. Measurement of surface tension of molten melts by deformation in rotation using an Electrostatic Levitator
    Y. Watanabe, M. Watanabe, V. Kumar, J. Okada, T. Ishikawa
    10th Asian Microgravity Symposium 2014 Seoul, P50(Oct. 2014).

  30. Current Development Status of Electrostatic Levitation Furnace for Kibo on ISS
    H. Tamaru, Y. Nakamura, H. Ohkuma, S. Yukizono, T. Ishikawa, J.-T. Okada
    10th Asian Microgravity Symposium 2014 Seoul, O53(Oct. 2014).

  31. Development of Electrostatic Levitator for Pressurized Atmosphere
    J. Okada, T. Ishikawa, V. Kumar, P.F. Paradis, Y. Watanabe
    10th Asian Microgravity Symposium 2014 Seoul, O51(Oct. 2014).

  32. Spectral emissivity measurements of high molten refractory metals using an electrostatic levitator
    T. Ishikawa, J.-T. Okada, Y. Watanabe
    10th Asian Microgravity Symposium 2014 Seoul, O48(Oct. 2014).

  33. Effect of Oxygen in Liquid Zr on Surface Oscillation of Electrostatic Levitated Droplets
    K. Onodera, M. Watanabe, A. Mizuno, M. Watanabe, and T.Ishikawa
    Joint Meeting of the American Society for Gravitational and Space Research (29th annual meeting) International Symposium for Physical Sciences in Space (5th meeting), Orlando,SP.31 (Nov.2013).

  34. Effect of Oxygen in Liquid Zr on Surface Oscillation of Electrostatic Levitated Droplets
    K. Onodera, M. Watanabe, A. Mizuno, M. Watanabe, and T.Ishikawa
    Joint Meeting of the American Society for Gravitational and Space Research (29th annual meeting) International Symposium for Physical Sciences in Space (5th meeting), Orlando,SP.31 (Nov.2013).

  35. Surface Oscillation Analysis of Levitated Liquid Droplets under Microgravity for Precise Thermophysical Property Measurement of High-Temperature Liquids
    M. Watanabe, S. Ozawa, A. Mizuno, T. Ishikawa
    Joint Meeting of the American Society for Gravitational and Space Research (29th annual meeting) International Symposium for Physical Sciences in Space (5th meeting), Orlando, C18.4 (Nov.2013).

  36. Fabrication of Multiferroic NiFe2O4 by Levitation Process
    M.S. Vijaya Kumar, T. Ishikawa, Junpei T. Okada, Y. Watanabe, and K. Kuribayashi
    Joint Meeting of the American Society for Gravitational and Space Research (29th annual meeting) International Symposium for Physical Sciences in Space (5th meeting), Orlando, C3.3 (Nov. 2013).

  37. Thermophysical Property Measurements of High temperature Materials using Electrostatic Levitators
    T. Ishikawa, J. Okada, M. V. Kumar, P.-F. paradis, Y. Watanabe
    The 10th Asian Thermophysical Properties Conference (ATPC 2013), MoC1-2, Jeju, (Sep. 2013)

  38. Be addition effect on thermophysical property changes of bulk metallic glass-forming alloy measured by electrostatic levitation
    C.W. Ryu, D.H. Kang, G.W. Lee, T. Ishikawa, J. Okada, E.S. Park
    The 20th International Symposium on Metastable, Amorphous and Nanostructured Materials (ISMANAM 2013) ,7P4-24 Trino(Jul. 2013)

  39. Development of Electrostatic Levitator for Pressurized Atmosphere
    J. T. Okada, T. Ishikawa, W. Imai, V. Kumar, P.-F. Paradis
    29th International Symposium on Space Technology and Science, 2013-h-12, Nagoya (Jun. 2013).

  40. Fabrication of Advanced Glass and Ceramics by Containerless Levitation Process
    V. Kumar S Malahalli, J. T. Okada, Y. Watanabe, T. Ishikawa
    29th International Symposium on Space Technology and Science, 2013-h-12, Nagoya (Jun. 2013).

  41. Towards Microgravity Experiments Using the Electrostatic Levitation Furnace (ELF) in the International Space Station (ISS)
    T. Ishikawa, J. Okada, P.-F. Paradis, V. Kumar
    29th International Symposium on Space Technology and Science, 2013-h-10, Nagoya (Jun. 2013).

  42. The Feature and the Experiment Concept of Electrostatic Levitation Furnace for the ISS
    H. Tamaru, K. Shibasaki, H. Ohkuma, Y. Nakamura, T. Ishikawa, J. T. Okada, T. Takada, T. Arai, N. Fujino, Y. Yamaura
    29th International Symposium on Space Technology and Science, 2013-h-09, Nagoya (Jun. 2013)

  43. Fabrication and optical properties of glass and crystalline rare-earth aluminates by containerless levitation process
    M. S. Vijaya Kumar, T. Ishikawa, J. Okada, Y. Watanabe, and K. Kuribayashi
    TMS 142nd annual meeting and exhibition, San Antonio, (Mar. 2013)

  44. Formation of Glass and Crystalline Rare-earth Aluminates by Containerless Levitation Process
    M. S. Vijaya Kumar and T. Ishikawa
    9th China-Japan-Korea Workshop on Microgravity Sciences, Guilin(Oct.2012)

  45. An Electrostatic Levitation Furnace for the InternationalSpace Station
    T. Ishikawa, P.-F. Paradis, J. T. Okada
    ASTRO’12, 55 Quebec City (Apr. 2012)

  46. Non-contact spectral emissivity measurement using an electrostatic levitation method
    Y. Ito, T. Ishikawa, J. Okada, T. Masaki
    19th European Conference on Thermophysical Properties, Thessaloniki, 2011

  47. Viscosity measurements of molten refractory metals using an electrostatic levitator
    T. Ishikawa, P. –F. Paradis, J. Okada, Y. Watanabe
    19th European Conference on Thermophysical Properties, Thessaloniki, 2011

  48. Thermophysical property measurements of high temperature melts using an electrostatic levitation method
    T. Ishikawa, J.T. Okada, P.-F. Paradis, Y. Watanabe
    2nd International symposium on thermal design and thermophysical property for electronics and energy, P128, Tsukuba, 2010

  49. Phase selection in the undercooled melt of RMnO3 (R=rare earth element) using containerless solidification technique
    V. Kumar, K. Kuribayashi, J. Yu, M. Kaneko, T. Ishikawa, S. Yoda
    8th Japan-China-Korea workshop on microgravity sciences, Sendai2010

  50. Structure analysis of high temperature liquids – normal and undercooled zirconium
    K. Iizuka, T. Masaki, T. Ishikawa, J. Okada
    8th Japan-China-Korea workshop on microgravity sciences, Sendai2010

  51. Thermophysical properties measurements of liquid Mo-Nb alloys with the use of electrostatic levitator
    R. Nakajima, T. Masaki, T. Ishikawa, J. Okada
    8th Japan-China-Korea workshop on microgravity sciences, Sendai2010

  52. Atomic transport properties in liquid silicon by molecular dynamics simulation with the effective pair potential
    D.Karasawa,T. Masaki, T. Ishikawa, J. Okada
    8th Japan-China-Korea workshop on microgravity sciences, Sendai2010

  53. ELECTROSTATIC LEVITATION TECHNIQUE FOR INVESTIGATIONS OF PHYSICAL PROPERTIES OF LIQUID STATES
    J. Okada, T. Ishikawa, P. -F. Paradis, S. Yoda
    38th COSPAR Scientic Assembly 2010 G01-0034-10,Hamburg, Germany 2010

  54. THERMOPHYSICAL PROPERTY MEASUREMENTS OF MOLTEN LUTETIUM AND GADOLINIUM WITH AN ELECTROSTATIC LEVITATOR
    Y. WATANABE, J. OKADA, T. ISHIKAWA
    29th Japan Symposium on Thermophysical Properties, Tokyo, 2008

  55. Experimental Study of Liquid Boron using Electrostatic levitator combined with Synchrotron x-ray source
    J. T. Okada, Y. Watanabe, M. Hamaishi, T. Ishikawa, K. Kimura, S. Kohara,M. Itou, Y. Sakurai and S. Nanao
    16th International Symposium on Boron, Borides and Related Materials September 7-12, 2008, Matsue, Shimane, Japan

  56. Study of molten lanthanum by electrostatic levitation P.-
    P.-F. Paradis, T. Ishikawa, Y. Watanabe, N. Koike
    International Symposium on Physical Siences in Space 2007,Nara, 2007

  57. Development of non-contact electrical resistivity measurement technique using an electrostatic levitator
    T. Ishikawa, P.-F. Paradis,Y. Watanabe, N. Koike
    International Symposium on Physical Siences in Space 2007, Nara, 2007

  58. Property determination of liquid metals by electrostatic levitation at high temperatures
    P.-F. Paradis, T. Ishikawa, N. Koike, S. Yoda
    2007 Biennial International Symposium of ELGRA, Florence, Italy, 2007

  59. Influence of sample size on the viscosity measurement of molten metals with an electrostatic levitation method
    N. Koike, T. Ishikawa, P.-F. Paradis, H. Tomioka, Y.Watanabe, S. Yoda, T. Motegi
    2007 Biennial International Symposium of ELGRA, Florence, Italy, 2007

  60. Physical Property Measurements of Liquid and Supercooled Metals by Electrostatic Levitation
    P.-F. Paradis, T. Ishikawa, N. Koike, N, S. Yoda
    2007 International Symposium on Liquid Metal Processing and Casting,Nancy, France ,2007

  61. Structure and thermophysical properties of molten BaGe by using electrostatic levitation technique
    M. Watanabe, A. Ishikura, A. Mizuno, T. Masaki, T. Ishikawa, J. Kohara
    16th symposium on thermophysical properties, Boulder 2006

  62. Thermophysical property measurements of molten refractory metals using an electrostatic levitator
    T. Ishikawa, P.-F. Paradis, S. Yoda
    36th COSPAR Scientific Assembly Beijing, China, 2006

  63. Experiments in materials science on the ground and in reduced gravity using electrostatic levitators
    P.-F. Paradis, T. Ishikawa, S. Yoda
    36th COSPAR Scientific Assembly, Beijing, China, 2006

  64. Development of Non-contact Electrical Resistivity Measurement Technique in an Electrostatic Levitator
    T. Ishikawa, N. Koike, A. Ishikura, P.-F. Paradis
    ISTS 2006, Kanazawa

  65. Thermophysical Property Measurement of Liquid Platinum with an Electrostatic Levitation Furnace
    N. Koike, T. Ishikawa, A. Ishikura, P.-F. Paradis, S. Yoda, T. Motegi
    ISTS 2006, Kanazawa

  66. Electrostatic Levitation for Space and Ground-Based Research : JAXA'S Innovations
    P.-F. Paradis and T. Ishikawa
    ISTS 2006, Kanazawa

  67. Study of structure and thermophysical properties of molten BaGe by using electrostatic levitation technique
    A. Ishikura, T. Masaki, T. Ishikawa, N. Koike, S. Kohara, A. Mizuno, M.Watanabe
    2006 APS March Meeting, Baltimore, MD 2006

  68. Development of electrostaticlevitation furnace, and study of melt properties and supercooling on metals and oxides
    J.Yu, T. Ishikawa
    The 3rd Asian Conference on Crystal Growth and Crystal Technology, Beijing, China, 2005

  69. Density Measurement of Molten CaF2 by an Electrostatic Levitator
    I.Minato, H. Fukuyama, T.Ishikawa, P.-F. Paradis, J. Yu, S.Yoda
    The Seventeenth European Conference on Thermophysical Properties, Bratislava, Slovak Republic, 2005

  70. ThermophysicalProperties of Molten Refractory Metals by an Electrostatic Levitator
    T.Ishikawa, P. –F. Paradis, and S. Yoda
    TMS2005, San Francisco, 2005

  71. Property Measurements of Liquid Ruthenium using Electrostatic levitation
    P.-F. Paradis, T. Ishikawa, S. Yoda
    2nd International Conference on Structure, Processing & Properties of Materials,Dhaka,2004

  72. Non-contact density measurements of liquid and undercooled ceramics
    P.-F. Paradis, J. Yu, T.Ishikawa, S. Yoda
    37th Japan Symposium on Thermophysical Properties, Okayama, 2003

  73. Thermophysical properties measurements of refractory metals using an electrostatic levitation furnace
    T.Ishikawa, P.-F. Paradis, S.Yoda
    37th Japan Symposium on Thermophysical Properties, Okayama, 2003

  74. Thermophysical Property Measurements of Molten Metals and Ceramics by Electrostatic Levitation
    T.Ishikawa, P.-F. Paradis, J. Yu, T. Aoyama, S.Yoda
    15th International Symposium on Experimental Methods for Microgravity Materials Science, San Diego, 2003

  75. Thermophysical properties of oxide materials measured with a pressurized electrostatic levitator furnace
    Jianding Yu, P.-F. Paradis, T. Ishikawa, T. Aoyama, F. Kano, S. Yoda
    5th Japan-China Workshop on Microgravity Sciences, Dunhuang, 2002.

  76. Thermophysical property measurements of superheated and undercooled liquid refractory metals with an electrostatic levitation furnace
    P.-F. Paradis, T. Ishikawa, T. Aoyama, S. Yoda
    16th European Conf. On Thermophysical Properties, London, 2002

  77. NASDA's Electrostatic Levitation Furnaces: Powerful Tools for Thermophysical Property Measurements and Material Research
    P.-F. Paradis, T. Ishikawa, T. Aoyama, J. Yu, S. Yoda
    6th Japan-Canada Workshop on Space Technology, Jpn. Soc. Microg. Appl. -Canadian Space Agency, Hamamatsu, 2002

  78. Nouvelle technique de mesure sans-contact de la densite des verres et des ceramiques liquides
    P. -F. Paradis, J. Yu, T. Aoyama, T. Ishikawa, S. Yoda
    2eme JST 2002, French Ambassy, Tokyo, 2002

  79. A Ground-Based Electrostatic-Aerodynamic Levitator for High-Temperature Containerless Processing and Property Characterization of Glasses and Ceramics
    P.-F. Paradis, T. Ishikawa, J. Yu, S. Yoda
    AIAA 40th Aerospace Conference, Reno, 2002

  80. A ground-based electrostatic -aerodynamic levitator for high-temperature containerless processing and properties characterization of glasses and ceramics
    P. -F. Paradis, T. Ishikawa, S. Yoda
    AIAA Aerospace Science Meeting (2002)

  81. Thermophysical Property measurements of refractory metals using a ground-based electrostatic levitation furnace
    T. Ishikawa, P.-F. Paradis and S. Yoda
    2nd Pan Pacific Basin workshop on Microgravity Sciences, Pasadena, 2001

  82. Electrostatic Levitation Furnace for Structural Studies of High Temperature Liquid Metals by Neutron Scattering Experiments
    P.-F. Paradis, T. Ishikawa, S. Yoda
    11th International Conference on liquid and amorphous metals, Yokohama,2001

  83. Thermophysical Properties Measurements of refractory metals using a ground-based electrostatic levitation furnace
    T. Ishikawa, P. -F. Paradis, and S. Yoda
    22th Japan Symposium on Thermophysical Properties, Sendai, 2001

  84. Development of an electrostatic levitation furnace for the ISS: status of its ground-based thermophysical and structural properties determination capabilities
    P. -F. Paradis, T. Ishikawa, and S. Yoda
    European Symposium on Microgravity, Sorrento, Italy, 2000

  85. Development of an Electrostatic Furnace for the Thremophysical and Structural Properties Determination of Semiconductors and Metals
    P. -F. Paradis, T. Ishikawa, and S. Yoda
    Space bound 2000 Canada, 2000

[ESL] Contribution

  1. Thermophysical Property Measurements of Oxide Melts at High Temperature by Electrostatic Levitation Furnace on the ISS,
    T. Ishikawa, J. T. Okada, Y. Watanabe, H. Tamaru, and Y. Nakamura
    Int. J. Microgravity Sci. Appl. 32 (2015), 32410.

  2. Overview of the Electrostatic Levitation Furnace (ELF) for the International Space Station (ISS)
    H. Tamaru, T. Ishikawa, J. T. Okada, Y. Nakamura, H. Ohkuma, S. Yukizono, Y. Sakai, T. Takada
    Int. J. Microgravity Sci. Appl. 32 (2015), 32104.

  3. Towards Microgravity Experiments Using the Electrostatic Levitation Furnace (ELF) in the International Space Station (ISS)
    T. Ishikawa, J. T. Okada, P.-F. Paradis, M. V. Kumar
    Trans. JSASS Aerospace Tech. Japan 12 ists29 (2014), Th-15-18.

[BOV] paper

  1. Results of Microgravity Experiments Using the Balloon Operated Vehicle with a New Drag-Free Control Method
    M.KIKUCHI, T. ISHIKAWA, S. YAMAMOTO,S. SAWAI, Y. MARU, S. SAKAI, N. BANDO, S. SHIMIZU, H. KOBAYASHI, T. YOSHIMITSU, Y. KAN, T. MIZUSHIMA, S. FUKUYAMA, J. OKADA, S. YODA, H. FUKE, Y. KAKEHASHI, and T. HASHIMOTO
    Int J. of Microgravity Sci. Appl. 32(2015), 320211.

  2. Development of vehicle for balloon-based microgravity experiment and its flight results
    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
    Journal of the Japan society for aeronautical and space sciences, 56 (2008), 339-346

  3. The Second Test Flight of Microgravity Experiment System Using a Free-fall Capsule from a High Altitude Balloon
    T. Ishikawa, Y. Inatomi, T. Hashimoto, S. Sawai, Y. Saito, T. Yoshimitsu, S. Sakai, H. Kobayashi, K. Fujita, N. Bando, M. Goto
    J of Jpn Soc. of Microgravity Appl.25 (2008), 3-10.

  4. First test flight of microgravity experiment system using free-fall capsule released from high altitude balloon
    Y. INATOMI, T. ISHIKAWA, T. HASHIMOTO, S. SAWAI, H. KOBAYASHI, K.FUJITA, N. BANDO, M. GOTO, I. JIMBO and H. YAMAKAWA
    J of Jpn Soc. of Microgravity Appl. 24 (2007), 296-300

  5. First test flight of free-fall capsule for microgravity experiment released from high altitude balloon
    Y. Inatomi, T. Ishikawa, T. Hashimoto, S. Sawai, Y. Saito, T. Yoshimitsu, S. Sakai, H. Kobayashi, K. Fujita, N. Bando, M. Goto, I. Jimbo, and H. Yamakawa
    J of Jpn Soc. of Microgravity Appl. 23 (2006), 197.

[BOV] Oral

  1. Low Gravity Environment Obtained by a Freefall Capsule with a High Altitude Balloon
    T. Ishikawa, M. Kikuchi, S. Yamamoto, S. Sawai, Y. Maru, S. Sakai, N. Bando, S. Shimizu, H. Kobayashi, T. Yoshimitsu
    30th ISTS, Kobe (Jul. 2015) 2015-h-14.

  2. Droplet Array Combustion Experiment under Microgravity by Using the Balloon Operated Vehicle
    M. Kikuchi, T. Ishikawa, S. Yamamoto, Y. Maru, N. B, Y. Kan, A. Tazaki, S. Fukuyama, J. Okada, H. Fuke
    29th International Symposium on Space Technology and Science, 2013-h-21, Nagoya (Jun. 2013)

  3. Microgravity experiment system using free-fall capsule from a high altitude balloon (result of the 2nd test flight)
    T. Ishikawa, T. Hashimoto, S. Sawai, Y. Saito, Y. Inatomi, T. Yoshimitsu, S. Sakai, H. Kobayashi, K. Fujita, and N. Bando
    26th ISTS, Hamamatsu,2008

  4. Microgravity experiment system using free-fall capsule from a high altitude balloon (status of #2 test flight)
    T. Ishikawa, T. Hashimoto, S. Sawai, Y. Saito, Y. Inatomi, T. Yoshimitsu, S. Sakai, H. Kobayashi, K. Fujita, N. Bando, H. Yamakawa
    DTD2006, Tsukuba (Nov.2006)

  5. First test flight of microgravity experiment system using free-fall capsule released from high altitude balloon
    Y. Inatomi, T. Ishikawa, T. Hashimoto, S. Sawai, Y. Saito, T. Yoshimitsu, S. Sakai, H. Kobayashi, K. Fujita, N. Bando, M. Goto, I. Jimbo, H. Yamakawa
    DTD2006, Tsukuba (Nov.2006)

Pub. Menu

member
Takehiko Ishikawa
Professor
Department of Interdisciplinary Space Science / ISAS / JAXA
About ISAS > Academic Staff
» KAKEN
» JAXA Repository

location
JAXA’s Tsukuba Space Center (TKSC)
2-1-1 Sengen, Tsukuba-shi, Ibaraki 305-8505
outbound link About TKSC
outbound link TKSC Access

contact
Takehiko Ishikwa

outbound link(JAXA・ELF)