Publications

Articles in 'Original paper'

  1. High-speed Deposition of Tetragonal-ZrO2-dispersed SiO2 Nanocomposite Films by Laser Chemical Vapor Deposition L.F. Xu, A. Ito, T. Goto: Materials Letters 154 85–89 (2015).

  2. A feather-like structure of β-Al2TiO5 film prepared by laser chemical vapor deposition A. Ito, S. Nishigaki, T. Goto: Journal of the European Ceramic Society 35(7) 2195–2199 (2015).

  3. Synthesis of pseudobrookite titanium oxynitride Ti3−δO4N films by laser chemical vapor deposition A. Ito, H.-S. Joo, T.-S. Kim, T. Goto: Vacuum 116 121–123 (2015).

  4. Effect of deposition atmosphere on the phase composition and microstructure of silicon carbide films prepared by laser chemical vapour deposition R. Hashimoto, A. Ito, T. Goto: Ceramics International 41(5) 6898–6904 (2015).

  5. Preparation of γ-Al2O3 films by laser chemical vapor deposition M. Gao, A. Ito, T. Goto: Applied Surface Science 340 160–165 (2015).

  6. High-speed deposition of highly (001)-oriented SrCO3 films prepared using laser chemical vapor deposition J. Chen, A. Ito, T. Goto: Ceramics International accepted (2015).

  7. Assignment of Yb3+ energy levels in the C2 and C3i centers of Lu2O3 sesquioxide either as ceramics or as crystal Y. Guyot, M. Guzik, G. Alombert-Goget, J. Pejchal, A. Yoshikawa, A. Ito, T. Goto, G. Boulon: Journal of Luminescence accepted (2015).

  8. Spark plasma sintering of TiN–TiB2–hBN composites and their properties M. Kitiwan, A. Ito, T. Goto: Ceramics International 41(3) 4498–4503 (2015).

  9. Nd3+-doped Lu2O3 transparent sesquioxide ceramics elaborated by the Spark Plasma Sintering (SPS) method. Part 1: Structural, thermal conductivity and spectroscopic characterization G. Alombert-Goget, Y. Guyot, M. Guzik, G. Boulon, A. Ito, T. Goto, A.Yoshikawa, M. Kikuchi: Optical Materials 41 3–11 (2015).

  10. Nd3+-doped Lu2O3 transparent sesquioxide ceramics elaborated by the Spark Plasma Sintering (SPS) method. Part 2: First laser output results and comparison with Nd3+-doped Lu2O3 and Nd3+-Y2O3 ceramics elaborated by a conventional method G. Toci, M. Vannini, M. Ciofini, A. Lapucci, A. Pirri, A. Ito, T. Goto, A. Yoshikawa, A. Ikesue, G. Alombert-Goget, Y. Guyot, G. Boulon: Optical Materials 41 12–16 (2015).

  11. Spectroscopy of C3i and C2 sites of Nd3+-doped Lu2O3 sesquioxide either as ceramics or crystal M. Guzik, G. Alombert-Goget, Y. Guyot, J. Pejchal, A. Yoshikawa, A. Ito, T. Goto, G. Boulon: Journal of Luminescence accepted (2015).

  12. Effects of film thickness on the electrical properties of YBa2Cu3O7−δ films grown on a multilayer-coated Hastelloy C276 tape by laser CVD P. Zhao, A. Ito, T. Goto: Journal of Electroceramics accepted (2014).

  13. Densification and mechanical properties of cBN–TiN–TiB2 composites prepared by spark plasma sintering of SiO2-coated cBN powder M. Kitiwan, A. Ito, J. Zhang, T. Goto: Journal of the European Ceramic Society 34(15) 3619–3626 (2014).

  14. Orientation control and electrical properties of YBa2Cu3O7−δ deposited onto CeO2 buffer films by laser chemical vapor deposition using liquid source precursors P. Zhao, A. Ito, T. Goto: Thin Solid Films 564(1) 92–96 (2014).

  15. Highly transparent Nd3+:Lu2O3 produced by spark plasma sintering and its laser oscillation L.Q. An, A. Ito, J. Zhang, D. Tang, T. Goto: Optical Materials Express 4(7) 1420–1426 (2014).

  16. Effect of LiF addition on spark plasma sintering of transparent Nd-doped Lu2O3 bodies L.Q. An, A. Ito, T. Goto: Journal of Asian Ceramic Societies 2(2) 154–158 (2014).

  17. Structural Investigations of Lu2O3 as Single Crystal and Polycrystalline Transparent Ceramic M. Guzik, J. Pejchal, A. Yoshikawa, A. Ito, T. Goto, M. Siczek, T. Lis, G. Boulon: Crystal Growth & Design 14(7) 3327–3334 (2014).

  18. Effect of laser wavelength on phase and microstructure of TiO2 films prepared by laser chemical vapor deposition M. Gao, A. Ito, T. Goto: Surface and Coatings Technology 244(15) 166–172 (2014).

  19. Scintillation Properties of Nd-doped Lu2O3 in the Visible and Infrared Regions S. Kurosawa, L.Q. An, A. Yamaji, A. Suzuki, Y. Yokota, K. Shirasaki, Y. Tomoo, A. Ito, T. Goto, G. Boulon, A. Yoshikawa: IEEE Transactions on Nuclear Science 61(1) 316–319 (2014).

  20. Spark plasma sintering of TiN–TiB2 composites M. Kitiwan, A. Ito, T. Goto: Journal of the European Ceramic Society 34(2) 197–203 (2014).

  21. Transparent anatase and rutile TiO2 films grown by laser chemical vapor deposition A. Ito, T. Sato, T. Goto: Thin Solid Films 551(31) 37–41 (2014).

  22. Preparation of Al2O3–ZrO2 nanocomposite films by laser chemical vapor deposition A. Ito, Y. You, T. Ichikawa, K. Tsuda, T. Goto: Journal of the European Ceramic Society 34(1) 155–159 (2014).

  23. Effect of deposition temperature on the orientation and electrical properties of YBa2Cu3O7−δ films prepared by laser CVD using liquid-source evaporation P. Zhao, A. Ito, T. Goto: Ceramics International 40(1) 2057–2061 (2014).

  24. Preparation of (100) CeO2 and (110) YBa2Cu3O7−δ films by laser chemical vapor deposition P. Zhao, A. Ito, T. Goto: Ceramics International 40(1) 605–609 (2014).

  25. Laser chemical vapor deposition of single-crystalline transparent CeO2 films P. Zhao, A. Ito, T. Goto: Surface and Coatings Technology 235 273–276 (2013).

  26. Growth and microstructure of Ba β-alumina films by laser chemical vapor deposition A. Ito, Y. You, H. Katsui, T. Goto: Journal of the European Ceramic Society 33(13-14) 2655–2661 (2013).

  27. Effects of laser power on the growth of polycrystalline AlN films by laser chemical vapor deposition method Y. You, A. Ito, R. Tu, T. Goto: Surface and Coatings Technology 232(15) 1–5 (2013).

  28. Highly (001)-oriented α-Al2O3 films prepared by laser chemical vapor deposition Y. You, A. Ito, T. Goto: Materials Letters 106 11–13 (2013).

  29. Rapid deposition of YBCO films by laser CVD and effect of lattice mismatch on their epitaxial growth and critical temperature P. Zhao, A. Ito, T. Goto: Ceramics International 39 7491–7497 (2013).

  30. Optical and scintillation properties of Sc2O3, Y2O3 and Lu2O3 transparent ceramics synthesized by SPS method Y. Futami, T. Yanagida, Y. Fujimoto, J. Pejchal, M. Sugiyama, S. Kurosawa, Y. Yokota, A. Ito, A. Yoshikawa, T. Goto: Radiation Measurements 55 136–140 (2013).

  31. High-Jc YBa2Cu3O7−δ superconducting film grown by laser-assisted chemical vapor deposition using a single liquid source and its microstructure P. Zhao, A. Ito, T. Kato, D. Yokoe, T. Hirayama, T. Goto: Superconductor Science and Technology 26 095016 (2013).

  32. Preparation of TiO2-rich Ba–Ti–O thick films by laser chemical vapor deposition method D.Y. Guo, A. Ito, T. Goto, R. Tu, C. Wang, Q. Shen, L. Zhang: Journal of Advanced Ceramics 2(2) 167–172 (2013).

  33. Preparation of rutile TiO2 thin films by laser chemical vapor deposition method D.Y. Guo, A. Ito, T. Goto, R. Tu, C. Wang, Q. Shen, L. Zhang: Journal of Advanced Ceramics 2(2) 162–166 (2013).

  34. Effect of laser power on electrical conductivity of BaTi5O11 films prepared by laser chemical vapor deposition method D.Y. Guo, A. Ito, T. Goto, R. Tu, C. Wang, Q. Shen, L. Zhang: Journal of Materials Science: Materials in Electronics 24(6) 1941–1946 (2013).

  35. Preparation of TiO2 thick film by laser chemical vapor deposition method D.Y. Guo, A. Ito, T. Goto, R. Tu, C. Wang, Q. Shen, L. Zhang: Journal of Materials Science: Materials in Electronics 24(6) 1758–1763 (2013).

  36. Microstructure and dielectric response of (111)-oriented tetragonal BaTiO3 thick films prepared by laser chemical vapor deposition D.Y. Guo, A. Ito, R. Tu, T. Goto: Journal of Asian Ceramic Societies 1(2) 197–201 (2013).

  37. High-speed growth of YBa2Cu3O7−δ superconducting films on multilayer-coated Hastelloy C276 tape by laser-assisted MOCVD P. Zhao, A. Ito, T. Kato, D. Yokoe, T. Hirayama, T. Goto: Superconductor Science and Technology 26 055020 (2013).

  38. Fabrication of transparent Lu2Hf2O7 by reactive spark plasma sintering L.Q. An, A. Ito, T. Goto: Optical Materials 35(4) 817–819 (2013).

  39. Effect of laser power on orientation and microstructure of TiO2 films prepared by laser chemical vapor deposition method D.Y. Guo, A. Ito, T. Goto, R. Tu, C. Wang, Q. Shen, L. Zhang: Materials Letters 93 179–182 (2013).

  40. Preparation of the c-axis oriented AlN film by laser chemical vapor deposition using a newly proposed Al(acac)3 precursor Y. You, A. Ito, R. Tu, T. Goto: Journal of Crystal Growth 365 1–5 (2013).

  41. Transparent Lu3NbO7 bodies prepared by reactive spark plasma sintering and their optical and mechanical properties L.Q. An, A. Ito, T. Goto: Ceramics International 39(1) 383–387 (2013).

  42. Basic study of Eu2+-doped garnet ceramic scintillator produced by spark plasma sintering M. Sugiyama, T. Yanagida, Y. Fujimoto, Y. Yokota, A. Ito, M. Nikl, T. Goto, A. Yoshikawa: Optical Materials 35(2) 222–226 (2012).

  43. B deficiency in TiB2 and B solid solution in TiN in TiN–TiB2 composites prepared by spark plasma sintering M. Kitiwan, A. Ito, T. Goto: Journal of the European Ceramic Society 32(16) 4021–4024 (2012).

  44. Scintillation characteristics of undoped Sc2O3 single crystals and ceramics A. Fukabori, L.Q. An, A. Ito, V. Chani, K. Kamada, T. Goto, A. Yoshikawa: IEEE Transactions on Nuclear Science 59(5) 2594–2600 (2012).

  45. High-speed Epitaxial Growth of BaTi2O5 Thick Films and Their In-plane Orientations D.Y. Guo, A. Ito, R. Tu, T. Goto: Applied Surface Science 259 178–185 (2012).

  46. Effect of sintering temperature on the transparency and mechanical properties of lutetium aluminum garnet fabricated by spark plasma sintering L.Q. An, A. Ito, T. Goto: Journal of the European Ceramic Society 32(12) 3097–3102 (2012).

  47. Preparation of (020)-oriented BaTi2O5 thick films and their dielectric responses A. Ito, D.Y. Guo, R. Tu, T. Goto: Journal of the European Ceramic Society 32(10) 2459–2467 (2012).

  48. Effect of calcination temperature on fabrication of transparent lutetium titanate by spark plasma sintering L.Q. An, A. Ito, T. Goto: Ceramics International 38(6) 4973–4977 (2012).

  49. Preparation of Ti(O,N) Films by Laser Chemical Vapor Deposition for Functionally Gradient Coating on Ti(C,N)-based Cermet T. Yonesaki, A. Ito, T. Goto: Journal of the Japan Society of Powder and Powder Metallurgy 59(7) 405–409 (2012).

  50. Microstructure and hardness of SiC–TiC nanocomposite thin films prepared by radiofrequency magnetron sputtering G. Osugi, A. Ito, M. Hotta, T. Goto: Thin Solid Films 520(18) 5851–5855 (2012).

  51. Effect of laser power on microstructure and dielectric properties of BaTi5O11 films prepared by laser chemical vapor deposition method D.Y. Guo, A. Ito, T. Goto, R. Tu, C.B. Wang, Q. Shen, L. Zhang: Journal of Materials Science: Materials in Electronics 23(11) 1961–1964 (2012).

  52. Transparent yttria produced by spark plasma sintering at moderate temperature and pressure profiles L.Q. An, A. Ito, T. Goto: Journal of the European Ceramic Society 32(5) 1035–1040 (2012).

  53. Correlation between crystal grain sizes of transparent ceramics and scintillation light yields A. Fukabori, L.Q. An, A. Ito, V. Chani, K. Kamada, A. Yoshikawa, T. Ikegami, T. Goto: Ceramics International 38(3) 2119–2123 (2012).

  54. Preparation of Ba–Ti–O films by Laser Chemical Vapor Deposition A. Ito, D.Y. Guo, R. Tu, T. Goto: Materials Chemistry and Physics 133(1) 398–404 (2012).

  55. Dielectric properties of Ba4Ti13O3O film prepared by laser chemical vapor deposition D.Y. Guo, A. Ito, T. Goto, R. Tu, C.B. Wang, Q. Shen, L. Zhang: Journal of Materials Science 47(3) 1559–1561 (2012).

  56. Rh-nanoparticle-dispersed ZrO2 films prepared by laser chemical vapor deposition A. Honda, T. Kimura, A. Ito, T. Goto: Surface and Coatings Technology 206(11-12) 3006–3010 (2012).

  57. Preparation of LaRuO3 Films by Microwave Plasma-enhanced Chemical Vapor Deposition M. Kimura, A. Ito, T. Kimura, T. Goto: Thin Solid Films 520(6) 1847–1850 (2012).

  58. Effects of sintering and annealing temperature on fabrication of transparent Lu2Ti2O7 by spark plasma sintering L.Q. An, A. Ito, T. Goto: Journal of the American Ceramic Society 94(11) 3851–3855 (2011).

  59. Fabrication of transparent Lu3NbO7 by spark plasma sintering L.Q. An, A. Ito, T. Goto: Materials Letters 65(19-20) 3167–3169 (2011).

  60. Effects of ball milling and post-annealing on the transparency of spark plasma sintered Lu2O3 L.Q. An, A. Ito, T. Goto: Ceramics International 37(7) 2263–2267 (2011).

  61. (006)-oriented α-Al2O3 films prepared in CO2–H2 atmosphere by laser chemical vapor deposition using a diode laser Y. You, A. Ito, R. Tu, T. Goto: Materials Science and Engineering: B 176(13) 984–989 (2011).

  62. Two-step pressure sintering of transparent lutetium oxide by sparking plasma sintering L.Q. An, A. Ito, T. Goto: Journal of the European Ceramic Society 31(9) 1597–1602 (2011).

  63. Deposition of α-Al2O3 films on Ti(C, N)-based cermet substrate by laser chemical vapor deposition using a diode laser Y. You, A. Ito, R. Tu, T. Goto: Journal of the Ceramic Society of Japan 119(7) 570–572 (2011).

  64. High-speed epitaxial growth of (100)-oriented CeO2 film on r-cut sapphire by laser chemical vapor deposition P. Zhao, A. Ito, R. Tu, T. Goto: Surface and Coatings Technology 205(16) 4079–4082 (2011).

  65. Laser chemical vapor deposition of TiN film on Ti(C, N)-based cermet substrate using Ti(OiPr)2(dpm)2–NH3 system Y. You, A. Ito, R. Tu, T. Goto: Journal of the Ceramic Society of Japan 199(4) 310–313 (2011).

  66. Fabrication of Transparent Lutetium Oxide by Spark Plasma Sintering L.Q. An, A. Ito, T. Goto: Journal of the American Ceramic Society 94(3) 695–698 (2011).

  67. Fast epitaxial growth of a-axis- and c-axis-oriented YBa2Cu3O7−δ films on (100) LaAlO3 substrate by laser chemical vapor deposition P. Zhao, A. Ito, R. Tu, T. Goto: Applied Surface Science 257(9) 4317–4320 (2011).

  68. Dome-like and dense SiC–SiO2 nanocomposite films synthesized by laser chemical vapor deposition using CO2 laser S. Yu, A. Ito, R. Tu, T. Goto: Surface and Coatings Technology 205(8-9) 2818–2822 (2011).

  69. Eggshell- and Fur-like Microstructures of Yttria Silicate Film Prepared by Laser Chemical Vapor Deposition A. Ito, J. Endo, T. Kimura, T. Goto: Materials Chemistry and Physics 125(1-2) 242–246 (2011).

  70. Highly transparent lutetium titanium oxide produced by spark plasma sintering L.Q. An, A. Ito, T. Goto: Journal of the European Ceramic Society 31(1-2) 237–240 (2011).

  71. High-speed growth of YBa2Cu3O7−δ film with high critical temperature on MgO single crystal substrate by laser chemical vapor deposition P. Zhao, A. Ito, R. Tu, T. Goto: Superconductor Science and Technology 23(12) 125010 (2010).

  72. SiC–SiO2 nanocomposite films prepared by laser CVD using tetraethyl orthosilicate and acetylene as precursors S. Yu, R. Tu, A. Ito, T. Goto: Materials Letters 64(20) 2151–2154 (2010).

  73. Generation of hollow scalar and vector beams using a spot-defect mirror A. Ito, Y. Kozawa, S. Sato: Journal of the Optical Society of America A 27(9) 2072–2077 (2010).

  74. High-Speed Deposition of Y–Si–O Films by Laser Chemical Vapor Deposition Using Nd:YAG laser A. Ito, J. Endo, T. Kimura, T. Goto: Surface and Coatings Technology 204(23) 3846–3850 (2010).

  75. Preparation of highly (100)-oriented CeO2 films on polycrystalline Al2O3 substrates by laser chemical vapor deposition P. Zhao, A. Ito, R. Tu, T. Goto: Surface and Coatings Technology 204(21-22) 3619–3622 (2010).

  76. Influence of laser power on the orientation and microstructure of CeO2 films deposited on Hastelloy C276 tapes by laser chemical vapor deposition P. Zhao, A. Ito, R. Tu, T. Goto: Applied Surface Science 256(21) 6395–6398 (2010).

  77. Laser Chemical Vapor Deposition of SiC Films with CO2 laser K. Fujie, A. Ito, R. Tu, T. Goto: Journal of Alloys and Compounds 502(1) 238–242 (2010).

  78. Orientation control of α-Al2O3 films prepared by laser chemical vapor deposition using a diode laser Y. You, A. Ito, R. Tu, T. Goto: Journal of the Ceramic Society of Japan 118(5) 366–369 (2010).

  79. Moderate temperature and high-speed synthesis of α-Al2O3 films by laser chemical vapor deposition using Nd:YAG laser H. Kadokura, A. Ito, T. Kimura, T. Goto: Surface and Coatings Technology 204(14) 2302–2306 (2010).

  80. Amorphous-like nanocrystalline γ-Al2O3 films prepared by MOCVD A. Ito, R. Tu, T. Goto: Surface and Coatings Technology 204(14) 2170–2174 (2010).

  81. Low temperature deposition of α-Al2O3 films by laser chemical vapor deposition using a diode laser Y. You, A. Ito, R. Tu, T. Goto: Applied Surface Science 256(12) 3906–3911 (2010).

  82. High-speed Deposition of Dense, Dendritic and Porous SiO2 Films by Nd:YAG Laser Chemical Vapor Deposition J. Endo, A. Ito, T. Kimura, T. Goto: Materials Science and Engineering: B 166(3) 225–229 (2010).

  83. High-speed preparation of c-axis-oriented YBa2Cu3O7−δ film by laser chemical vapor deposition P. Zhao, A. Ito, R. Tu, T. Goto: Materials Letters 64(1) 102–104 (2010).

  84. Characterization of alkaline earth metals ruthenate thin films A. Ito, H. Masumoto, T. Goto, S. Sato: Journal of the European Ceramic Society 30(2) 435–440 (2010).

  85. Texture and orientation characteristics of α-Al2O3 films prepared by laser chemical vapor deposition using Nd:YAG laser A. Ito, H. Kadokura, T. Kimura, T. Goto: Journal of Alloys and Compounds 489(2) 469–474 (2010).

  86. Fabrication of platinum particles by intense, femtosecond laser pulse irradiation of aqueous solution T. Nakamura, K. Takasaki, A. Ito, S. Sato: Applied Surface Science 255(24) 9630–9633 (2009).

  87. Effect of Lattice Matching on Microstructure and Electrical Conductivity of Epitaxial ARuO3 (A = Sr, Ca and Ba) Thin Films Prepared on (001) LaAlO3 Substrates by Laser Ablation A. Ito, H. Masumoto, T. Goto: Thin Solid Films 517(19) 5616–5620 (2009).

  88. Selective oscillation of radially and azimuthally polarized laser beam induced by thermal birefringence and lensing A. Ito, Y. Kozawa, S. Sato: Journal of the Optical Society of America B 26(4) 708–712 (2009).

  89. Epitaxial Growth of BaRuO3 Thin Films on MgO Substrates by Laser Ablation A. Ito, H. Masumoto, T. Goto, S. Sato: Journal of the Ceramic Society of Japan 117(4) 426–430 (2009).

  90. Effect of Ba Substitution on the Microstructure and Electrical Conductivity of BaxCa1−xRuO3 Thin Films Prepared by Laser Ablation A. Ito, H. Masumoto, T. Goto: Materials Transactions 49(8) 1822–1825 (2008).

  91. Effect of Ba Substitution on the Microstructure and Electrical Conductivity of BaxSr1−xRuO3 Thin Films Prepared by Laser Ablation A. Ito, H. Masumoto, T. Goto: Journal of the Ceramic Society of Japan 116(3) 441–444 (2008).

  92. Microstructure and Electrical Conductivity of CaRuO3 Thin Films Prepared by Laser Ablation A. Ito, H. Masumoto, T. Goto: Materials Transactions 49(1) 158–165 (2008).

  93. Microstructure and Electrical Conductivity of BaRuO3 Thin Films Prepared by Laser Ablation A. Ito, H. Masumoto, T. Goto: Materials Transactions 48(11) 2953–2959 (2007).

  94. Microstructure and Electrical Conductivity of Epitaxial CaRuO3 Thin Films Prepared by Laser Ablation A. Ito, H. Masumoto, T. Goto: Journal of the Ceramic Society of Japan 115(11) 683–687 (2007).

  95. Microstructure and Electrical Conductivity of Epitaxial BaRuO3 Thin Films Prepared on (001), (110) and (111) SrTiO3 Substrates by Laser Ablation A. Ito, H. Masumoto, T. Goto: Materials Transactions 48(7) 1919–1923 (2007).

  96. Characterization of calcium titanate thin films deposited on titanium with reactive sputtering and pulsed laser depositions N. Ohtsu, A. Ito, K. Saito, T. Hanawa: Surface and Coatings Technology 201(18) 7686–7691 (2007).

  97. Microstructure and Electrical Conductivity of Epitaxial SrRuO3 Thin Films Prepared on (001), (110) and (111) SrTiO3 Substrates by Laser Ablation A. Ito, H. Masumoto, T. Goto: Materials Transactions 48(2) 227–233 (2007).

  98. Microstructure and Electrical Conductivity of SrRuO3 Thin Films Prepared by Laser Ablation A. Ito, H. Masumoto, T. Goto: Materials Transactions 47(11) 2808–2814 (2006).

  99. Optical properties of Au Nanoparticle Dispersed TiO2 Films Prepared by Laser Ablation A. Ito, H. Masumoto, T. Goto: Materials Transactions 44(8) 1599–1603 (2003).