This course presents knowledge on fundamentals for energy science together with the state-of-art technologies in the field. It includes the fundamental knowledge on energy systems and applications of the related technologies.
This course presents knowledge on fundamentals for energy science together with the state-of-art technologies in the field. It includes the fundamental knowledge on energy systems and applications of the related technologies.
1. Phase-change Heat Transfer and its Application (T.Nagasaki)
2. Supercomputing with Low Power Consumption (T.Aoki)
3. Atmospheric application of plasma induced by ultrashort high-intensity laser pulses (T.Fujii)
4. Evolution of Accelerators: from Cathode Tube to LHC/ILC (K.Takayama)
5. Fundamentals and recent advances for rechargeable Li batteries (K.Waki)
6. Atomic Radiative Properties in Hot Dense Plasmas - for good understandings of plasma dynamics - (T.Kawamura)
7. Energy, Environment, and Accelerators (K.Horioka)
8. Is the largest contributor to global warming the increase in atmospheric CO2? (S.Iio)
9. Advanced Superconducting/Cryogenic Technology (T.Okamura)
10. Electrostatic Actuator (K.Saneyoshi)
11. Development of Brand-new Atmospheric Plasma Sources and its Application for Medical/Environmental Fields (A.Okino)
12. Modeling of Quality and Effect of Therapeutic Ion Beam (N.Matsufuji)
13. Plasmas for Industrial Applications and Physics for their Diagnostics (H.Akatsuka)
14. Pulsed Power Technology and its Application (E.Hotta)
The reference books etc. are specified by each lecturer.
Related subject or stipulations are specified by each lecturer.
The grade will depend on your attendance rate and report.