2 THEORETICAL PHYSICS |
|
|
2.1 Quark-Hadron Nuclear Physics |
|
|
1. Langevin Approach to Nuclear Dynamics and Fusion Hindrance of Massive
Nuclear Systems |
Y. Abe |
|
2. The Y (2175) State in the QCD Sum Rule |
Hua-Xing Chen, Xiang Liu, Atsushi Hosaka and Shi-Lin Zhu |
|
3. Chiral Properties of Flavor SU(3) Baryon Fields |
Hua-Xing Chen, Veljko Dmitrasinovic, Atsushi Hosaka, Keitaro Nagata and
Shi-Lin Zhu |
|
4. The nature of baryon resonances in the chiral unitary approach |
T. Hyodo, D. Jido and A. Hosaka |
|
5. Bottom Baryons |
Xiang Liu, Hua-Xing Chen, Yan-Rui Liu, Atsushi Hosaka and Shi-Lin Zhu |
|
6. Systematic study of 9;10;11Li with the tensor and pairing correlations |
T. Myo, Y. Kikuchi, K.Kato, H.Toki and K. Ikeda |
|
7. Resonances of 7He using the complex scaling method |
T. Myo, K. Kato and K. Ikeda |
|
8. Tensor optimized shell model with unitary correlation operator using bare
interaction for@4He |
T. Myo, H. Toki and K. Ikeda |
|
9. Linear sigma model for N, and ą(1232) and its chiral partners |
Keitaro Nagata, Veljko Dmitrasinovic and Atsushi Hoasaka |
|
10. Relativistic description of semi-infinite nuclear matter with vacuum polarization |
Naoko Nose-Togawa, Akihiro Haga, Setsuo Tamenaga and Hiroshi Toki |
|
11. Relativistic chiral mean field model with high-spin pion field for finite
nuclei |
Y. Ogawa, H. Toki, S. Tamenaga and A. Haga |
|
12. The role of gauged Wess-Zumino-Witten term in kaon photoproduction |
S. Ozaki, H. Nagahiro and A. Hosaka |
|