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1. 学術論文
  1. T. Bitoh, T. Hibino and H. Koshiba, “Thermal and Magnetic Properties of Ternary Fe-B-C and Quaternary Fe-B-C-Si Alloys with High Glass-Forming Ability and High Magnetization,” Materials Science Forum, vol. 1016, pp. 274–279 (2021).
  2. M. Feng, Y. Wu, Y. Wang, J. Zeng, T. Bitoh, M. Nomura and T. Fujii, “Effect of the Components of Magnetic Compound Fluid (MCF) Slurry on Polishing Characteristics in Aspheric-Surface Finishing with the Doughnut-Shaped MCF tool,” Precision Engineering, vol. 65, pp. 216–229 (2020).
  3. M. Feng, Y. Wu, Y. Wang, J. Zeng, T. Bitoh, M. Nomura and T. Fujii, “Investigation on the Polishing of Aspheric Surfaces with a Doughnut-Shaped Magnetic Compound Fluid (MCF) Tool using an Industrial Robot,” Precision Engineering, vol. 61, pp. 182–193 (2020).
  4. M. Feng, Y. Wang, T. Bitoh, M. Nomura, T. Fujii and Y. Wu, “Polishing Investigation on Zirconia Ceramics using Magnetic Compound Fluid (MCF) Slurry,” International Journal of Abrasive Technology, vol. 9, no. 4, pp. 257–275 (2019).
  5. Q. Wang, Y. Wu, Y. Li, D. Lu and T. Bitoh, “Proposal of a Tilted Helical Milling Technique for High Quality Hole Drilling of CFRP: Analysis of Hole Surface Finish,”  The International Journal of Advanced Manufacturing Technology, vol. 101, nos. 1–4, pp. 1041–1049 (2019).
  6. Q. Wang, Y. Wu, D. Lu, T. Bitoh and M. Feng, “Experimental Investigation on the Tilt Helical Milling of Carbon Fiber Reinforced Plastics (CFRP),” Key Engineering Materials, vol. 792, pp. 173–178 (2018).
  7. M. Feng, Y. Wu, T. Bitoh, T. Suzuki, M. Nomura, T. Fujii and Q. Wang “Fundamental Investigation on the Polishing Aspheric Elements with Doughnut-Shaped MCF Slurry,” Key Engineering Materials, vol. 792, pp. 179–184 (2018).
  8. T. Bitoh, T. Hibino and H. Koshiba, “Development of Ternary Fe-B-C and Quaternary Fe-B-C-Si Amorphous Alloys with High Glass-Forming Ability and High Magnetization,” 粉体および粉末冶金, vol. 65, no. 7, pp. 389–394 (2018).
  9. K. Moriya and T. Bitoh, “Glass-Forming Ability and Magnetization of (Fe, Co)-B-Si-(Nb, RE) (RE = Nd, Sm, Dy) Amorphous Alloys,” 粉体および粉末冶金, vol. 65, no. 7, pp. 395–400 (2018).
  10. M. Satake and T. Bitoh, “Synthesis of Fe-Co-Ni-(B, Si, C) Ferromagnetic High Entropy Amorphous Alloys and Their Thermal and Magnetic Properties,” 粉体および粉末冶金, vol. 65, no. 7, pp. 401–406 (2018).
  11. Q. Wang, Y. Wu, T. Bitoh, M. Nomura and T. Fujii, “Proposal of a Tilted Helical Milling Technique for High Quality Hole Drilling of CFRP: Kinetic Analysis of Hole Formation and Material Removal,” The International Journal of Advanced Manufacturing Technology, vol. 94, nos. 9–12, pp. 4221–4235 (2018).
  12. T. Hibino and T. Bitoh, “Ternary Fe-B-C and Quaternary Fe-B-C-Si Amorphous Alloys with Glass Transition and High Magnetization,” Journal of Alloys and Compounds, vol. 707, pp. 82–86 (2017).
  13. T. Bitoh and D. Watanabe, “Effect of Yttrium Addition on Glass-Forming Ability and Magnetic Properties of Fe-Co-B-Si-Nb Bulk Metallic Glass,” Metals, vol. 5, no. 3, pp. 1127–1135 (2015).
  14. T. Bitoh, “Effect of B2O3 Fluxing on Glass-Forming Ability and Soft Magnetic Properties of Fe(-Co)-B-Si-Nb Bulk Metallic Glasses,” Materials Science Forum, vols. 783–786, pp. 1895–1900 (2014).
  15. T. Bitoh and S. Kikuch, “Glass-Forming Ability and Magnetic Properties of (Fe0.80Co0.20)96–xBxSi1Nb3–yYy (x = 15, 17) Amorphous Alloys,” IEEE Transactions on Magnetics, vol. 50, no. 4, 2002704 (2014) (4 pages).
  16. T. Ishikawa, T. Tsubota and T. Bitoh, “Soft Magnetic Properties of Ring-Shaped Fe-Co-B-Si-Nb Bulk Metallic Glasses,” Journal of Magnetics, vol. 16, no. 4, pp. 431–434 (2011).
  17. M. Okayasu, S. Takasu, T. Bitoh, D. H. Shin and M. Makabe, “Fatigue and Tensile Properties of Titanium Based Bulk Glassy Alloys,” International Journal of Materials Engineering and Technology, vol. 5, no. 2, pp. 77–90 (2011).
  18. T. Bitoh, T. Ishikawa and H. Okumura, “Core Losses of Ring-Shaped (Fe0.75B0.20Si0.05)96Nb4 Bulk Metallic Glasses,” Journal of Physics: Conference Series, vol. 266, no. 1, 012026 (2011) (5 pages).
  19. T. Bitoh and S. Izumi, “Fe-Based Soft Magnetic Bulk Metallic Glass with Flat Hysteresis Curves,” World Journal of Engineering, vol. 7, sup. 3, pp. 121–122 (2010).
  20. M. Okayasu, M. Otake, T. Bitoh and M. Mizuno, “Temperature Dependence of the Fatigue and Mechanical Properties of Lead Zirconate Titanate Piezoelectric Ceramics,” International Journal of Fatigue, vol. 31, nos. 8–9, pp. 1254–1261 (2009).
  21. T. Bitoh and D. Shibata, “Constant Permeability of (Fe0.75B0.20Si0.05)96Nb4 Bulk Metallic Glass Prepared by B2O3 Flux Melting and Cu-Mold Casting,” Journal of Applied Physics, vol. 105, no. 7, 07A312 (2009) (3 pages).
  22. T. Yamamoto, N. Yodoshi, T. Bitoh, A. Makino and A. Inoue, “Soft Magnetic Fe-based Metallic Glasses Prepared by Fluxing and Water-Quenching,” Reviews on Advanced Materials Science, vol. 18, no. 2,  pp. 126–130 (2008).
  23. T. Bitoh and D. Shibata, “Improvement of Soft Magnetic Properties of [(Fe0.5Co0.5)0.75B0.20Si0.05]96Nb4 Bulk Metallic Glass by B2O3 Flux Melting,” Journal of Applied Physics, vol. 103, no. 7, 07E702 (2008) (3 pages).
  24. A. Makino, T. Bitoh and M. Nakagawa, “Direct Synthesis of L10-(Fe, Co)Pt Nanocrystallites from (Fe, Co)-Pt-Zr-B Liquid Phase by Melt-Spinning,” Journal of Non-Crystalline Solids, vol. 353, nos. 32–40, pp. 3655–3660 (2007).
  25. A. Makino, M. Bingo, T. Bitoh, K. Yubata and A. Inoue, “Improvement of Soft Magnetic Properties by Simultaneous Addition of P and Cu for Nanocrystalline FeNbB Alloys,” Journal of Applied Physics, vol. 101, no. 9, 09N117 (2007) (3 pages).
  26. A. Makino, T. Bitoh, A. Inoue and Y. Hirotu, “Magnetic Properties and Structure of Fe-Pt-M-B (M = Zr, Nb and Ti) Alloys Produced by Quenching Technique,” Journal of Alloys and Compounds, vols. 434–435, pp. 614–617 (2007).
  27. M. Bingo, T. Bitoh and A. Makino, “Compositional Dependence of Soft Magnetic Properties of Nanocrystalline Fe-Nb-B-P-Cu alloy Tapes Produced in Air,” Journal of Magnetism and Magnetic Materials, vol. 310, no. 2, pp. 2469–2470 (2007).
  28. H. Okumura, S. Nishinakagawa, T. Bitoh, A. Makino, K. Sato and Y. Hirotu, “Magnetic Properties and Microstructure of FePt-M-B (M = Zr, Nb, La) Films,” Journal of Magnetism and Magnetic Materials, vol. 310, no. 2, pp. 2527–2528 (2007).
  29. M. Makabe, M. Nakagawa, T. Bitoh and A. Makino, “Hard Magnetic Properties of Melt-Spun (Fe0.55Pt0.45)-(Nb, Ti)-B Nanocrystalline Alloys with L10 Structure,” Journal of Magnetism and Magnetic Materials, vol. 310, no. 2, pp. e855–e857 (2007).
  30. A. Makino, T. Bitoh, A. Inoue and Y. Hirotsu, “Melt-Spun L10 Fe-Pt-(Zr, Nb and Ti)-B Nanocrystalline Alloys with High Coercivity,” Materials Science and Engineering A, vols. 449–451, pp. 66–70 (2007).
  31. A. Makino, T. Bitoh, A. Inoue and A. L. Greer, “Soft Magnetic Bulk Glassy Alloy Synthesized by Flux Melting and Water Quenching,” Materials Science Forum, vols. 539–543, pp. 1921–1925 (2007).
  32. T. Bitoh, A. Makino, A. Inoue and A. L. Greer, “Large Bulk Soft Magnetic [(Fe0.5Co0.5)0.75B0.20Si0.05]96Nb4 Glassy Alloy Prepared by B2O3 Flux Melting and Water Quenching,” Applied Physics Letters, vol. 88, no. 18, 182510 (2006) (3 pages).
  33. T. Bitoh, A. Makino and A. Inoue, “Origin of Low Coercivity of (Fe0.75B0.15Si0.10)100–xNbx (x = 1–4) Glassy Alloys,” Journal of Applied Physics, vol. 99, no. 8, 08F102 (2006) (3 pages).
  34. T. Bitoh, A. Makino, M. Zama and H. Kudoh, “Zero Temperature Coefficient and Stability of Electrical Resistibility of Ni-Si-B Amorphous Alloys,” Journal of Metastable and Nanocrystalline Materials, vols. 24–25, pp. 229–232 (2005).
  35. T. Bitoh, A. Makino and A. Inoue, “Quasi-Dislocation Dipole Type-Defects and Low Coercivity of Fe-Based Soft Magnetic Glassy Alloys,” Journal of Metastable and Nanocrystalline Materials, vols. 24–25, pp. 427–430 (2005).
  36. T. Bitoh, M. Nakagawa and A. Makino, “Melting Temperature and Order-Disorder Transformation of Melt-Spun (Fe, Pt)-Zr-B Nanocrystalline Alloys,” Scripta Materialia, vol. 53, no. 4, pp. 429–434 (2005).
  37. T. Bitoh, A. Makino and M. Nakagawa, “Microstructure and Hard Magnetic Properties of Directly Synthesized L10 (Fe1–xPtx)78Zr4B18 Nanocrystalline Alloys by Melt-Spinning,” Journal of Applied Physics, vol. 97, no. 10, 10H307 (2005) (3 pages).
  38. T. Shirane, T. Bitoh and S. Chikazawa, “Critical Behavior of Magnetic Losses in Nickel near the Curie Temperature: Separation of Magnetic Losses by Analyzing Linear and Nonlinear Susceptibility,” Journal of the Korean Physical Society, vol. 46, no. 3, pp. 694–700 (2005).
  39. A. Makino, T. Bitoh and A. Inoue, “Direct Synthesis of L10 (Fe0.55Pt0.45)77–78Zr2–5B17–20 Nanocrystalline Alloys with High Coercivity by Melt-Spinning,” Materials Transactions, vol. 45, no. 9, pp. 2909–2915 (2004).
  40. A. Makino and T. Bitoh, “High Coercivity of Melt-Spun (Fe0.55Pt0.45)78Zr2–4B18–20 Nanocrystalline Alloys with L10 Structure,” Journal of Applied Physics, vol. 95, no. 11, pp. 7498–7500 (2004).
  41. T. Bitoh, A. Makino and A. Inoue, “The Effect of Grain-Size Distribution on Coercivity in Nanocrystalline Soft Magnetic Alloys,” Journal of Magnetism and Magnetic Materials, vols. 272–276, pp. 1445–1446 (2004).
  42. T. Bitoh, A. Makino and A. Inoue, “Magnetization Process and Coercivity of Fe-(Al, Ga)-(P, C, B, Si) Soft Magnetic Glassy Alloys,” Materials Transactions, vol. 45, no. 4, pp. 1219–1227 (2004).
  43. 尾藤輝夫, 牧野彰宏, 井上明久, 増本健, “ナノ結晶Fe-Nb-B(-P-Cu)合金の微細構造と軟磁気特性,” 日本応用磁気学会誌, vol. 28, no. 3, pp. 388–392 (2004).
  44. T. Bitoh, A. Makino, A. Inoue and T. Masumoto, “Random Anisotropy Model for Nanocrystalline Soft Magnetic Alloys with Grain-Size Distribution,” Materials Transactions, vol. 44, no. 10, pp. 2011–2019 (2003).
  45. T. Bitoh, A. Makino and A. Inoue, “Origin of Low Coercivity of Fe-(Al, Ga)-(P, C, B, Si, Ge) Bulk Glassy Alloys,” Materials Transactions, vol. 44, no. 10, pp. 2020–2024 (2003).
  46. Y. Gao, D. Shindo, T. Bitoh and A. Makino, “Domain Structures of Nanocrystalline Fe90Zr7B3 Alloy Studied by Lorentz Microscopy,” Science and Technology of Advanced Materials, vol. 4, no. 4, pp. 353–359 (2003).
  47. Y. Gao, D. Shindo, T. Bitoh and A. Makino, “Mediated Exchange Interaction in Fe-Nb-B Nanocrystalline Soft Magnetic Materials,” Physical Review B, vol. 67, 172409 (2003) (4 pages).
  48. A. Makino and T. Bitoh, “As-Quenched and Nanocrystallized Structure for Nb-Poor Fe-Nb-B-P-Cu Soft Magnetic Alloys Melt-Spun in Air,” Journal of Applied Physics, vol. 93, no. 10, pp. 6522–6524 (2003).
  49. Y. Gao, D. Shindo, T. Bitoh and A. Makino, “Magnetic Microstructure of Fe84Nb7B9 Alloys Observed by Electron Holography,” Journal of Applied Physics, vol. 93, no. 10, pp. 7462–7464 (2003).
  50. A. Makino, T. Bitoh, A. Inoue and T. Masumoto, “Nb-Poor Fe-Nb-B Nanocrystalline Soft Magnetic Alloys with Small Amount of P and Cu Prepared by Melt-Spinning in Air,” Scripta Materialia, vol. 48, no. 7, pp. 869–874 (2003).
  51. Y. Q. Wu, T. Bitoh, K. Hono, A. Makino and A. Inoue, “Microstructure and Properties of Nanocrystalline Fe-Zr-Nb-B Soft Magnetic Alloys with Low Magnetostriction,” Acta Materialia, vol. 49, no. 19, pp. 4069–4077 (2001).
  52. A. Makino, T. Bitoh, A. Kojima, A. Inoue and T. Masumoto, “Low Core Losses of Nanocrystalline Fe-Zr-Nb-B Soft Magnetic Alloys with High Magnetic Flux Density,” Materials Science and Engineering A, vols. 304–306, pp. 1083–1086 (2001).
  53. A. Makino, T. Bitoh, A. Kojima, A. Inoue and T. Masumoto, “Magnetic Properties of Zero-Magnetostrictive Nanocrystalline Fe-Zr-Nb-B Alloys with High Magnetic Induction,” Journal of Magnetism and Magnetic Materials, vols. 215–216, pp. 288–292 (2000).
  54. A. Makino, T. Bitoh, A. Kojima, A. Inoue and T. Masumoto, “Compositional Dependence of Soft Magnetic Properties of Nanocrystalline Fe-Zr-Nb-B Alloys with High Magnetic Flux Density,” Journal of Applied Physics, vol. 87, no. 9, pp. 7100–7102 (2000).
  55. 尾藤輝夫, 牧野彰宏, 小島章伸, 井上明久, 増本健, “ナノ結晶Fe-Zr-Nb-B合金の軟磁気特性,” 日本応用磁気学会誌, vol. 24, no. 4–2, pp. 675–678 (2000).
  56. T. Bitoh, M. Nakazawa, A. Makino, A. Inoue and T. Masumoto, “Effect of Ti, V, Cr, and Mn Additions on Magnetic Properties of a Nanocrystalline Soft Magnetic Fe-Zr-B Alloy with High Magnetic Flux Density,” Journal of Applied Physics, vol. 85, no. 8, pp. 5127–5129 (1999).
  57. A. Makino, T. Bitoh, J. Murakami, T. Hatanai, A. Inoue and T. Masumoto, “Nanocrystalline Soft Magnetic Fe-M-B (M = Zr, Hf, Nb) Alloys ォNANOPERMサ with High Magnetic Induction,” Journal de Physique IV, vol. 8, pr. 2, pp. 103–106 (1998).
  58. Y. Naitoh, T. Bitoh, T. Hatanai, A. Makino and A. Inoue, “Application of Nanocrystalline Soft Magnetic Fe-M-B (M = Zr, Nb) Alloys to Choke Coils,” Journal of Applied Physics, vol. 83, no. 11, pp. 6332–6334 (1998).
  59. Y. Naitoh, T. Bitoh, T. Hatanai, A. Makino, A. Inoue and T. Masumoto, “Application of Nanocrystalline Soft Magnetic Fe-M-B (M = Zr, Nb) Alloys,” Nanostructured Materials, vol. 8, no. 8, pp. 987–995 (1998).
  60. A. Makino, T. Hatanai, Y. Naitoh, T. Bitoh, A. Inoue and T. Masumoto, “Applications of Nanocrystalline Soft magnetic Fe-M-B (M = Zr, Nb) Alloys “NANOPERM®”,” IEEE Transactions on Magnetics, vol. 33, no. 5, pp. 3793–3798 (1997).
  61. A. Makino, A. Inoue, T. Hatanai and T. Bitoh, “Improved Soft Magnetic Properties of Nanocrystalline Fe-M-B-Cu (M = Zr, Nb) Alloys with High Saturation Magnetic Flux Density and Zero-Magnetostriction,” Materials Science , vols. 235–238, pp. 723–728 (1997).
  62. T. Bitoh, A. Makino, T. Hatanai, A. Inoue and T. Masumoto, “The Relationship between the Crystallization Process and the Soft Magnetic Properties of Nanocrystalline Fe-M-B-Cu (M = Zr, Nb) Alloy,” Journal of Applied Physics, vol. 81, no. 8, pp. 4634–4636 (1997).
  63. A. Makino, T. Bitoh, A. Inoue and T. Masumoto, “Nanocrystalline Fe-M-B-Cu (M = Zr, Nb) Alloys with Improved Soft Magnetic Properties,” Journal of Applied Physics, vol. 81, no. 6, pp. 2736–2739 (1997).
  64. Y. Tsuchiya, T. Bitoh, S. Murayama, S. Chikazawa and Y. Hamaguchi, “Magnetic Properties and Magnetic Phase Diagram of bcc Cr-Fe-Mn Alloys,” Journal of The Physical Society of Japan, vol. 65, no. 10, pp. 3289–3293 (1996).
  65. T. Bitoh, K. Ohba, M. Takamatsu, T. Shirane and S. Chikazawa, “Comparative Study of Linear and Nonlinear Susceptibilities of Fine-Particle and Spin-Glass Systems: Quantitative Analysis Based on the Superparamagnetic Blocking Model,” Journal of Magnetism and Magnetic Materials, vol. 154, no. 1, pp. 59–65 (1996).
  66. T. Bitoh, K. Ohba, M. Takamatsu, T. Shirane and S. Chikazawa, “Field-Cooled and Zero-Field-Cooled Magnetization of Superparamagnetic Fine Particles in Cu97Co3 Alloy: Comparison with Spin-Glass Au96Fe4 Alloy,” Journal of The Physical Society of Japan, vol. 64, no. 4, pp. 1305–1310 (1995).
  67. T. Bitoh, K. Ohba, M. Takamatsu, T. Shirane and S. Chikazawa, “Linear and Nonlinear Susceptibilities of Ferromagnetic File Particles in Cu97Co3 Alloy,” Journal of The Physical Society of Japan, vol. 64, no. 4, pp. 1311–1319 (1995).
  68. T. Shirane, T. Moriya, T. Bitoh, A. Sawada, H. Aida and S. Chikazawa, “Nonlinear Susceptibility of Ni near the Curie Temperature,” Journal of The Physical Society of Japan, vol. 64, no. 3, pp. 951–959 (1995).
  69. S. Nagata, T. Hagino, Y. Seki and T. Bitoh, “Metal-Insulator Transition in Thiospinel CuIr2S4,” Physica B, vols. 194–196, pp. 1077–1078 (1994).
  70. T. Bitoh, K. Ohba, M. Takamatsu, T. Shirane and S. Chikazawa, “Linear and Nonlinear Susceptibilities in Cu97Co3 Alloy for Ferromagnetic Fine Particles in Metallic Matrix: Comparison with Spin Glass Au96Fe4 Alloy,” Journal of The Physical Society of Japan, vol. 62, no. 8, pp. 2583–2586 (1993).
  71. T. Bitoh, T. Shirane and S. Chikazawa, “Critical Behavior of Linear and Nonlinear Susceptibilities near Curie Temperature in Au82Fe18 Alloy,” Journal of The Physical Society of Japan, vol. 62, no. 8, pp. 2837–2844 (1993).
  72. T. Shirane, T. Hagino, Y. Seki, T. Bitoh, S. Chikazawa and S. Nagata, “Superconductivity in Selenospinel CuRh2Se4,” Journal of The Physical Society of Japan, vol. 62, no. 1, pp. 374–375 (1993).
  73. T. Bitoh, T. Hagino, Y. Seki, S. Chikazawa and S. Nagata, “Superconductivity in Thiospinel CuRh2S4,” Journal of The Physical Society of Japan, vol. 61, no. 8, pp. 3011–3012 (1992).
  74. S. Chikazawa, H. Arisawa, T. Bitoh, K. Kikuchi, N. Hasegawa and S. Taniguchi, “Linear and Nonlinear Susceptibilities of Amorphous Fe10Ni70B19Si1 Alloy,” Journal of Magnetism and Magnetic Materials, vols. 90 & 91, pp. 343–344 (1990).


2. 国際会議論文
  1. T. Bitoh and S. Izumi, “Constant Permeability of Fe-B-Si-Nb Crystal-Glassy Composite Bulk Alloy by B2O3 Flux Melting and Casting,” Energy Technology 2013 – Carbon Dioxide Management and Other Technologies, eds. S. Pati, J. Drelich, A. Jha, N. Neelameggham, L. Prentice and C. Wang (San Antonio, The Minerals, Metals & Materials Society, 2013) pp. 199–205.
  2. T. Bitoh, A. Makino, A. Inoue and A. L. Greer, “Formation of Large Bulk [(Fe0.5Co0.5)0.75B0.20Si0.05]96Nb4 Glassy Alloy by Flux Melting and Water Quenching,” Materials Research Society Symposium Proceedings, eds. E. Ma, S. Schuh, Y. Li and M. K. Miller (Boston, Materials Research Society, 2006) vol. 903E, Z05–18 (6 pages).
  3. T. Bitoh, A. Makino and A. Inoue, “Nanostructure and Soft Magnetic Properties of Nb-Poor Fe-Nb-B(-P-Cu) Alloys,” Proceedings of Soft Magnetic Materials, 16th Conference, ed. D. Raabe (Düsserdorf, Max-Plank-Institute für Eisenforschung, 2004) vol. 2, pp. 543–548.
  4. A. Makino, T. Bitoh and A. Inoue, “Magnetostriction and Coercivity of Soft Magnetic Fe-(Al, Ga)-(P, C, B, Si) Bulk Glassy Alloys,” Materials Research Society Symposium Proceedings, eds. T. Egami, A. L. Greer, A. Inoue and S. Ranganathan (Boston, Materials Research Society, 2003) vol. 754, pp. 445–450.
  5. A. Makino, T. Bitoh, A. Inoue and T. Masumoto, “Effect of P and Cu Additions on As-Quenched Structure and Soft Magnetic Properties of Fe-Nb-B Nanocrystalline Alloys,” Proceedings of the 4th Pacific Rim International Conference on Advanced Materials and Processing, eds. S. Hanada, Z. Zhong, S. W. Nam and R. N. Wright (Honolulu, The Japan Institute of Metals, 2001) vol. I, pp. 131–134.
  6. T. Bitoh, A. Makino, A. Kojima and A. Inoue, “Nanocomposite Structure of Soft Magnetic Fe-M-B (M = Zr, Hf, Nb), Fe-M-O (M = Zr, Hf, Rare Earth) Materials,” Advances in Composite Materials and Structures VII, eds. W. P. de Wilde, W. R. Blain and C. A. Brebbia (WIT press, UK, 2000) pp. 33–42.
  7. T. Bitoh, T. Hatanai, A. Makino, A. Inoue and T. Masumoto, “Magnetic Field-Induced Anisotropy of Nanocrystalline Soft Magnetic Fe-Zr-B Alloy “NANOPERM”,” Proceedings of the 3rd Pacific Rim International Conference on Advanced Materials and Processing, eds. M. A. Imam, R. DeNale, S. Hanada, Z. Zhong and D. N. Lee (Honolulu, The Minerals, Metals & Materials Society, 1998) pp. 1011–1016.


3. 著書
  1. A. Inoue, A. Makino and T. Bitoh, “Soft Magnetic Bulk Glassy and Bulk Nanocrystalline Alloys,” Handbook of Magnetism and Advanced Materials, Volume 4–Novel Materials,” eds. H. Kronmüller and S. Parkin (John Wiley and Sons, Hoboken, 2007) pp. 1909–1925, ISBN: 0470022175.
  2. A. Inoue, A. Makino and T. Bitoh, “Magnetic Properties of Nanocrystalline Materials,” Nanostructured Materials–Processing, Properties, and Applications, 2nd. ed., ed. C. C. Koch (William Andrew, Norwich, 2007) pp. 487–536 (Chapter 11), ISBN: 0815515340.


4. その他
  1. 尾藤輝夫, 日比野貴郁, 小柴 寿人, “高い飽和磁化を有するFe-B-Cアモルファス合金へのSi添加効果,” 秋田県立大学Web Journal B, vol. 4, pp. 107–112 (2017).
  2. 水野衛, 尾藤輝夫, 境英一, 小宮山崇夫, 吉澤結子, 津田渉, “工学教育(機械工学分野)におけるアクティブラーニングの効果―「機械材料」に関する実例の紹介と考察―,” 秋田県立大学総合科学研究彙報, vol. 18, pp. 95–104 (2017).
  3. 尾藤輝夫, 日比野貴郁, “高い飽和磁化とガラス遷移を有するFe-B-Cアモルファス合金の開発,” 秋田県立大学Web Journal B, vol. 3, pp. 154–158 (2016).
  4. 牧野彰宏, 尾藤輝夫, 弘津禎彦, 佐藤和久, “Fe-Pt-Zr-B急冷リボンにおけるL10-FePt規則相ナノ粒子の析出,” 材料開発のための顕微鏡法と応用写真集 (日本金属学会, 2006), p. 234.
  5. 牧野彰宏, 尾藤輝夫, “金属ガラスの軟磁気特性,” 金属, vol. 75, no. 2, pp. 95–100 (2005).
  6. 尾藤輝夫, 牧野彰宏, 宝野和博, 井上明久, “Fe-Zr-Nb-B合金の急冷状態における微細構造とナノ結晶化後の軟磁気特性,” 電気学会マグネティックス研究会, MAG-01, no. 94, pp. 1–6 (2001).
  7. 牧野彰宏, 尾藤輝夫, 松田直人, 後藤正治, “ナノ結晶軟磁性Fe-Nb-B合金へのP添加効果,” 電気学会マグネティックス研究会, MAG-01, no. 95, pp. 7–12 (2001).
  8. Y. Naitoh, T. Bitoh, T. Hatanai, A. Makino, A. Inoue and T. Masumoto, “Development of Common Mode Choke Coil Made of New Nanocrystalline Soft Magnetic Alloy “NANOPERM”,” The Science Reports on the Research Institutes, Tohoku University, Series A, vol. 43, no, 2, pp. 161–165 (1997).
  9. 尾藤輝夫, 内藤豊, 畑内隆史, 牧野彰宏, 井上明久, 増本健, “新ナノ結晶軟磁性合金“ナノパ−ム®”の軟磁気特性とその応用,” 電気学会マグネティックス研究会, MAG-96, no. 261, pp. 59–68 (1996).


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2022年3月14日更新