[Outline]
Lecture on nuclear physics will be given as a basic subject of nuclear engineering.
[Aim]
To understand and obtain the basic knowledge on nuclear physics in nuclear engineering.
By taking this course, the students obtain basic knowledge on nuclear physics and the knowledge to understand subjects of advanced courses in nuclear engineering such as nuclear reactor physics.
Binding Energy, Nuclear Decay, Radiation, Mass Formula, Drip Lines, Free Fermi Gas Model, Level Density, Shell Models, Collective Models, Optical Model, Direct Reactions, Compound Nuclear Reactions, Statistical Mode, Nuclear Data
✔ Specialist skills | Intercultural skills | Communication skills | Critical thinking skills | ✔ Practical and/or problem-solving skills |
Questions and answers session will be conducted in each class.
Course schedule | Required learning | |
---|---|---|
Class 1 | General Properties of Nuclei I: Basic Characters of Nucleus | Explain Nuclear Size, Nuclear Density |
Class 2 | General Properties of Nuclei II: Binding Energy | Explain Nuclear Force, Character of Nuclear Binding Energy |
Class 3 | General Properties of Nuclei III: Nuclear Decay and Radiation | Explain alpha, beta, and gamma Decays and Rays |
Class 4 | General Properties of Nuclei IV: Mass Formula, Drip Lines | Explain Mass Formula, Neutron Drip Line, Proton Drip Line |
Class 5 | General Properties of Nuclei V: Quantum Theory | Explain Schroedinger Equation, Eigenvalues |
Class 6 | Nuclear Structure I: Free Fermi Gas Model | Explain Exclusion Principle, Fermi Gass |
Class 7 | Nuclear Structure II: Level Density | Explain Nuclear Level Density |
Class 8 | Nuclear Structure III: Shell Models | Explain Single Particle Shell Model |
Class 9 | Nuclear Structure V: Collective Models (Rotation, Vibration) | Explain Rotation and Vibration Motion of Nuclei |
Class 10 | Nuclear Reactions I: Formal Theory | Explain Nuclear Reaction Formal Theory |
Class 11 | Nuclear Reactions II: Optical Model | Explain Nuclear Reaction, Optical Model |
Class 12 | Nuclear Reactions III: Direct Reactions | Explain Direct Nuclear Reactions |
Class 13 | Nuclear Reactions IV: Compound Nuclear Reactions, Statistical Model | Explain Compound Nuclear Reactions, Statistical Model |
Class 14 | Nuclear Reactions V:Nuclear Fission | Explain Nuclear fission mechanisms |
Class 15 | Nuclear Reactions VI: Nuclear Data | Explain Nuclear Data relevant to Nuclear Engineering |
None
Course materials will be distributed in each class.
Short Reports (Several times, About 60%), Term-end Report (About 40%)
None
Prof. Yoshiyuki Oguri(yoguri[at]nr.titech.ac.jp)
Assoc. Prof. Tatsuya Katabuchi (buchi[at]nr.titech.ac.jp)
Prof. Satoshi Chiba (chiba.satoshi[at]nr.titech.ac.jp)