2 THEORETICAL PHYSICS |
|
|
2.2 Theoretical Physics with Supercomputer |
|
|
1. Contribution of center vortices into equation of state of gluon plasma |
M. N. Chernodub, Atsushi Nakamura and V. I. Zakharov |
|
|
2. Dominance of Abelian monopoles in equation of state of gluon plasma |
M. N. Chernodub, Katsuya Ishiguro, Toru Sekido, Tsuneo Suzuki and V. I.
Zakharov |
|
|
3. Roles of fermions in the lattice Landau gauge and Coulomb gauge QCD |
Sadataka Furui |
|
|
4. A numerical method of solving time-dependent Hartree-Fock Bogoliubov
equation with Gogny interaction |
Y. Hashimoto and K. Nodeki |
|
|
5. Abelian dominance without gauge fixing in SU(2) gluodynamics |
K. Ishiguro, Y. Koma, T. Sekido and T. Suzuki |
|
|
6. Numerical computation of Feynman loop integrals |
T. Ishikawa and F. Yuasa |
|
|
7. Topological susceptibility in two-flavor lattice QCD with exact chiral
symmetry(2.) |
JLQCD-TWQCD Collaboration: H. Matsufuru, T. Onogi et al. |
|
|
8. Nonperturbative determination of the relativistic corrections to the static
inter-quark potential at O(1/m) up to 0.9 fm |
Y. Koma, M. Koma and H. Wittig |
|
|
9. Collective excitation modes of unstable nuclei in the continuum quasiparticle
random phase approximation |
K. Mizuyama, M. Matsuo, and Y. Serizawa |
|
|
10. Lattice study of the gluon and ghost propagators in Coulomb gauge QCD |
Y. Nakagawa, A. Nakamura, T. Saito, and H. Toki |
|
|
11. Lattice study of low-lying nonet scalar mesons in Quenched Approximation |
T. Kunihiro, S. Muroya, A. Nakamura, C. Nonaka, M. Sekiguchi and H. Wada |
|
|
12. High precision study of B∗Bπ coupling in unquenched QCD |
Hiroshi Ohki, Hideo Matsufuru and Tetsuya Onogi |
|
|
13. Lattice QCD study of the axial charge of N(1535) |
Toru T. Takahashi and Teiji Kunihiro |
|
|
14. The heavy-heavy-light quark potential in lattice QCD |
T. Umeda, H. Ohno, Y. Maezawa, T. Hatsuda, S. Aoki, K. Kanaya, S. Ejiri,N. Ishii |
|
|
15. The heavy-heavy-light quark potential in lattice QCD |
A. Yamamoto, H. Suganuma and H. Iida |