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Tokushima University ⟩ Faculty of Engineering ⟩ | ||

## Center for Mathematics and Physics in Engineering Education |

Related Organization: Tokushima University ⟩ Faculty of Science and Technology ⟩ Department of Science and Technology ⟩ Mathematical and Natural Sciences

Related Site: http://www.pm.tokushima-u.ac.jp/

A | |

analysis | Fukagai, Nobuyoshi |

anisotropic superconductivity | Kawasaki, Yu |

asymptotic analysis | Ohyama, Yousuke |

B | |

C | |

Cathode and anode materials for Li ion rechargeable batteries | Nakamura, Koichi |

conductor | |

≫ ionic conductor | |

≫ superionic conductor | Nakamura, Koichi |

D | |

differential equation | Fukagai, Nobuyoshi |

diffusion | |

≫ ionic diffusion | Nakamura, Koichi |

Discrete equations | Ohyama, Yousuke |

E | |

Electrical conductivity measurement | Nakamura, Koichi |

FG | |

H | |

heavy-fermion compound | Kawasaki, Yu |

I | |

ion | |

≫ ionic conductor | |

≫ superionic conductor | Nakamura, Koichi |

≫ ionic diffusion | Nakamura, Koichi |

ionic conductor | |

≫ superionic conductor | Nakamura, Koichi |

ionic diffusion | Nakamura, Koichi |

Iwasawa theory for algebraic number fields | Sumida-Takahashi, Hiroki |

JK | |

L | |

Li transition metal oxide | Nakamura, Koichi |

Li^{+} ion conductor |
Nakamura, Koichi |

Li^{+} ion diffusion |
Nakamura, Koichi |

M | |

Mechanical milling | Nakamura, Koichi |

N | |

Na^{+} ion conductor |
Nakamura, Koichi |

Na^{+} ion diffusion |
Nakamura, Koichi |

non-Fermi liquid | Kawasaki, Yu |

nonlinear | Fukagai, Nobuyoshi |

nuclear magnetic resonance | Kawasaki, Yu / Nakamura, Koichi |

numerical analysis of algebraic fields | Sumida-Takahashi, Hiroki |

O | |

P | |

The Painleve equations | Ohyama, Yousuke |

QR | |

S | |

simulation | Takeuchi, Toshiki |

superionic conductor | Nakamura, Koichi |

T | |

U | |

Ultrasonic method | Nakamura, Koichi |

VWXYZ |