担当科目　 （2025年度）

• 専門　　 「基礎統計力学�T」　　　　　　　 　　（後期 金�X）
• 専門　　 「基礎統計力学�U」　　　　　　　 　　（前期 木�W）
• 専門　　 「物理学実験B（固体物理学実験）」　　（前期 月�V-�X）
• 専門　　 「固体物理学」（分担）　　　　　　　（前期 火�W）
• 大学院　「低温物理学特論」　　　　　 　　 　 （後期 金�W）
• その他　「理工リテラシーS3」ほか

略歴　 　　　1969年6月　　富山市生まれ

• 1989年4月-1994年3月　富山大学 理学部 物理学科
• 1994年4月-1996年3月　東北大学大学院 理学研究科 物理学専攻 博士課程前期
• 1996年4月-1998年3月　富士ゼロックス株式会社
• 1998年4月-2001年3月　東北大学大学院 理学研究科 物理学専攻 博士課程後期
• 2001年4月-2002年7月　東北大学金属材料研究所 COE研究員
• 2002年8月-2004年9月　佐賀大学 理工学部 物理科学科 講師
• 2004年10月 -　　　　　 佐賀大学 理工学部 物理科学科 助教授
• 2007年4月 - 　　　　　 佐賀大学 理工学部 物理科学科 准教授
• 2010年4月 - 　　　　　 佐賀大学大学院 工学系研究科 物理科学専攻 准教授
• 2018年4月-2022年3月　佐賀大学 理工学部 物理学部門 准教授

• 2022年4月 - 　　　　　 佐賀大学 理工学部 物理学部門 教授

業績リスト　 （2025年3月現在）

1. M. Maki, S. Okayasu, and T. Nishizaki, “Magnetic and dielectric studies of the charge density wave formation in quasi-one-dimensional material K_0.3MoO₃”, J. Phys. Chem. Solids 199 (2025) 112520 1-5.
2. M. Maki, Y. Fujimoto, I. Yamamoto, J. Azuma, S. Kobayashi, S. Demura, and H. Sakata, “Angle-Resolved Photoemission Measurement along the van-der-Waals Stacking Direction of ZrTe₃”, J. Phys. Soc. Jpn. 91 (2022) 094708 1-4.
3. M. Maki, K. Matsuo, E. Koga, I. Yamamoto, and J. Azuma, “Photoinduced intragap excitations in the incommensurate charge density wave phase of Rb_0.3MoO₃”, Phys. Lett. A 412 (2021) 127576 1-5.
4. M. Maki, S. Takakura, I. Yamamoto, and J. Azuma, “Self-organized formation of chemical bonding in misfit-layered bismuthbased cobaltites”, J. electron spectros. relat. phenomena 232 (2019) 95-99.
5. X. G. Zheng, I. Yamauchi, S. Kitajima, M. Fujihala, M. Maki, S. Lee, M. Hagihala, S. Torii, T. Kamiyama, and T. Kawae, “Two-dimensional triangular-lattice Cu(OH)Cl, belloite, as a magnetodielectric system”, Phys. Rev. Materials 2 (2018) 104401 1-8.
6. S. Takakura, I. Yamamoto, E. Tanaka, J. Azuma, and M. Maki, “Interlayer coupling and electronic structure of misfit-layered bismuth-based cobaltites”, Phys. Rev. B95 (2017) 195166 1-5.
7. S. Takakura, I. Yamamoto, E. Koga, F. Ichikawa, J. Azuma, and M. Maki, “Temperature-dependent Fermi surface of the misfit cobaltite [Bi₂Sr₂O₄]_0.51CoO₂: A comparison with [Bi₂Ba₂O₄]_0.50CoO₂”, Phys. Rev. B93 (2016) 165118 1-5.
8. M. Maki, S. Takakura, T. Nishizaki, and F. Ichikawa, “Microscopic adjustment of misfit strain and charge segregation in [Bi₂Sr₂O₄]_0.51CoO₂”, Phys. Rev. B92 (2015) 165117 1-4.
9. M. Maki, T. Inoue, H. Tobata, M. Shu-nan, T. Nishizaki, and F. Ichikawa, “Impurity effect on the inter-chain dielectric response of the CDW condensate in K_0.3MoO₃”, J. Phys. Soc. Jpn. 83 (2014) 124702 1-4.
10. D. Meng, X. G. Zheng, X. Xu, J. Nakauchi, M. Fujihala, X. Liu, Q. Guo, and M. Maki, “Investigation of the multiferroic transition in CuO single crystal using dielectric and Raman spectroscopy measurements”, JPS Conf. Proc. 3 (2014) 014039 1-6.
11. X. G. Zheng, M. Fujihala, S. Kitajima, M. Maki, K. Kato, M. Takata, and C. N. Xu, “Strong magnetic-dielectric-lattice coupling in transition metal hydroxyhalides and ferroelectric response in rhombohedral Co₂(OD)₃X (X=Cl, Br)”, Phys. Rev. B87 (2013) 174102 1-6.
12. M. Maki and Y. Nohmi, “Field-dependent dielectric response of the three-dimensional charge-density wave in K_0.3MoO₃”, J. Phys. Soc. Jpn. 82 (2013) 023704 1-4.
13. M. Maki, C. Yukitake, and S. Yufu, “Highly anisotropic dielectric behavior of Bi₂Sr₂Dy(Cu_1-xZn_x)₂O₈”, Journal of the Korean Physical Society 62 (2013) 1823-1826.
14. M. Shu-nan and M. Maki, “Dielectric anisotropy in the charge-density wave state of K_0.3MoO₃”, J. Phys. Soc. Jpn. 80 (2011) 084706 1-4.
15. K. Shibata, T. Nishizaki, M. Maki, and N. Kobayashi, “Local spectroscopy and vortex-core imaging on chemically wet-etched surfaces of YBa₂Cu₃O_y by scanning tunneling microscopy/spectroscopy”, Supercond. Sci. Technol. 23 (2010) 085004 1-5.
16. S. Yufu, M. Shu-nan, S. Nakao, and M. Maki, “Out-of-plane dielectric behavior of insulating Bi₂Sr₂RECu₂O_8+δ (RE=Dy, Y, and Er)”, J. Phys. Soc. Jpn. 79 (2010) 054709 1-6.
17. M. Maki, K. Machida, T. Mori, T. Nishizaki, and N. Kobayashi, “In-plane conduction and c-axis polarization in the misfit-layered oxide [Bi₂Ca₂O₄]_qCoO₂”, Phys. Rev. B78 (2008) 073101 1-3.
18. T. Nishizaki, M. Maki, and N. Kobayashi, “One-dimensional electronic order in underdoped surface of YBa₂Cu₃O_y studied by STM”, J. Phys. Chem. Solids 69 (2008) 3014-3017.
19. M. Maki, S. Nakao, K. Machida, M. Shiraishi, X.-G. Zheng, T. Naito, and H. Iwasaki, “Dielectric properties and carrier dynamics in Bi₂Sr₂YCu₂O_8+δ”, J. Phys. Soc. Jpn. 76 (2007) 044711 1-6.
20. T. Nishizaki, N. Kobayashi, and M. Maki, “STM studies of electronic order in the underdoped surface of YBa₂Cu₃O_y”, Int. J. of Modern Physics B 21 (2007) 3199-3201.
21. T. Nishizaki, K. Shibata, M. Maki, and N. Kobayashi, “STM/STS studies on vortex and electronic state in YBa₂Cu₃O_y”, Physica C 437-438 (2006) 220-225.
22. M. Maki, T. Nishizaki, K. Shibata, and N. Kobayashi, “Layered charge-density waves with nanoscale coherence in YBa₂Cu₃O_7-δ”, Phys. Rev. B72 (2005) 024536 1-6.
    ( Selected for the Aug. 1, 2005 issue of Virtual Journal of Applications of Superconductivity. )
23. K. Shibata, T. Nishizaki, M. Maki, and N. Kobayashi, “Vortex matter in YBa₂Cu₃O_y single crystals investigated by scanning tunneling spectroscopy”, Phys. Rev. B72 (2005) 014525 1-6.
    ( Selected for the Jul. 15, 2005 issue of Virtual Journal of Applications of Superconductivity. )
24. K. Shibata, M. Maki, T. Nishizaki, and N. Kobayashi, “Scanning tunneling spectroscopy studies on vortices in YBa₂Cu₃O_y single crystals”, Physica C 392-396 (2003) 323-327.
25. M. Maki, T. Nishizaki, and N. Kobayashi, “LT-STM observation of YBa₂(Cu_1-xZn_x)₃O_7-δ single crystals”, Physica C 388-389 (2003) 279-280.
26. T. Nishizaki, K. Shibata, M. Maki, and N. Kobayashi, “Vortex Phase Transition and Oxygen Vacancy in YBa₂Cu₃O_y Single Crystals”, J. Low Temp. Phys. 131 (2003) 931-940.
27. N. Kobayashi, T. Sato, T. Nishizaki, K. Shibata, M. Maki, and T. Sasaki, “Vortex Phase Diagram in Zn-Doped YBa₂Cu₃O_y Crystals”, J. Low Temp. Phys. 131 (2003) 925-929.
28. K. Shibata, M. Maki, T. Nishizaki, and N. Kobayashi, “Quasiparticle spectra and their spatial variation on YBa₂Cu₃O_y by scanning tunneling spectroscopy”, Physica C 388-389 (2003) 277-278.
29. M. Maki, T. Nishizaki, and N. Kobayashi, “Zn-induced one-dimensional electronic modulation in YBa₂Cu₃O_7-δ”, Phys. Rev. B67 (2003) 014534 1-4.
    ( Selected for the Feb. 1, 2003 issue of Virtual Journal of Applications of Superconductivity. )
30. M. Maki, T. Nishizaki, K. Shibata, and N. Kobayashi, “Electronic structure of the CuO-chain layer in YBa₂Cu₃O_7-δ studied by scanning tunneling microscopy”, Phys. Rev. B65 (2002) 140511(R) 1-4.
    ( Selected for the Apr. 1, 2002 issue of Virtual Journal of Applications of Superconductivity. )
31. M. Maki, T. Nishizaki, K. Shibata, and N. Kobayashi, “Low-temperature scanning tunneling microscopy of YBa₂Cu₃O_7-δ”, Physica C 378-381 (2002) 84-88.
32. N. Kobayashi, T. Nishizaki, K. Shibata, T. Sato, M. Maki, and T. Sasaki, “Melting transition of vortex matter in YBa₂Cu₃O_y with various oxygen contents”, Physica C 362 (2001) 121-126.
33. M. Maki, T. Nishizaki, K. Shibata, and N. Kobayashi, “Identification of Atomic Layers of YBa₂Cu₃O_7-δ by Scanning Tunneling Microscopy and Spectroscopy”, J. Phys. Soc. Jpn. 70 (2001) 1877-1880.
34. M. Maki, T. Nishizaki, K. Shibata, T. Sasaki, and N. Kobayashi, “Low-temperature STM/STS of high-T_c superconductors”, Physica C 357-360 (2001) 291-293.
35. K. Shibata, T. Nishizaki, T. Naito, M. Maki, and N. Kobayashi, “Superconducting properties of untwinned YBa₂Cu₃O_y single crystals annealed in high-pressure oxygen”, Physica B 284-288 (2000) 1027-1028.
36. N. Kobayashi, T. Nishizaki, T. Naito, K. Shibata, M. Maki, S. Okayasu, and A. Iwase, “Vortex Phase Diagram in High-T_c Superconductor YBa₂Cu₃O_y”, Superconductivity, Magneto-Resistive Materials and Strongly Correlated Quantum Systems, eds. N. V. Hieu, T. T. Van, and G. Xiao, (Vietnam National University Press, Hanoi, 2000) p.43-50.
37. T. Nishizaki, K. Shibata, T. Naito, M. Maki, and N. Kobayashi, “Vortex Phase Diagram as a Function of Oxygen Deficiency in Untwinned YBa₂Cu₃O_y”, J. Low Temp. Phys. 117 (1999) 1375-1379.
38. M. Sera, M. Maki, M. Hiroi, and N. Kobayashi, “Thermal Conductivity of La_2-x-yNd_ySr_xCuO₄”, J. Phys. Soc. Jpn. 66 (1997) 765-777.
39. M. Maki, M. Sera, M. Hiroi, and N. Kobayashi, “Suppression of the superconducting transition temperature T_c around x 〜 0.115 in La_2-xSr_xCuO₄”, Phys. Rev. B53 (1996) 11324-11327.
40. M. Sera, M. Maki, M. Hiroi, N. Kobayashi, T. Suzuki, and T. Fukase, “Thermal conductivity and structural instability in La- and Cu-site-substituted La₂CuO₄”, Phys. Rev. B52 (1995) R735-R738.
41. M. Sera, H. Sato, M. Maki, M. Hiroi, and N. Kobayashi, “Anomalies of the Electrical Resistivity and the Thermoelectric Power around 600 K in a Small x Region of La_2-xSr_xCuO₄”, Solid State Commun. 92 (1994) 289-293.