スポンサーリンク
Department Of Mathematical Sciences Ibaraki University | 論文
- Long-Term Relaxation of a Composite System in Partial Contact with a Heat Bath : General Physics
- An Effective Lagrangian for Pions, ρ Mesons and Skyrmions : Particles and Fields
- Flexible Foraging of Ants under Unsteadily Varying Environment(Cross-disciplinary Physics and Related Areas of Science and Technology)
- Non-Abelian Anomaly and Vector Mesons as Dynamical Gauge Bosons of Hidden Local Symmetries : Particles and Fields
- Cohomology Classification of Self Maps of Sphere Bundles over Spheres : Dedicated to Professor Yasutoshi Nomura on his 60th birthday
- The Energetic Particle Spectrometer HEP onboard the GEOTAIL Spacecraft
- Breaking of Separability Condition for Dynamical Collective Subspace : Onset of Quantum Chaos in Large-Amplitude Collective Motion : Nuclear Phusics
- A Role of the Two-body Collision in the Nuclear Shape Evolution (原子核動力学における散逸と減衰)
- The determination of caloric morphisms on Euclidean domains
- Magnetic Translation Symmetry on the Lattice(Particles and Fields)
- A Possible Microscopic Description of Nuclear Collective Rotation in Band-Crossing Region:Occurrence Mechanism of s-Band
- Bifurcation Structure of Eigenstates and Periodic Trajectories in TDHF Phase Space : Weak Nonlinearity Case in SU(3) Model : Nuclear Physics
- A Numerical Study on the Structure Change of Collective Motions
- New Algorithm for Hartree-Fock Variational Equation : Nuclear Physics
- Quantum Nonlinear Resonance : Nuclear Physics
- Microscopic Description of Nuclear Collective Rotation by Means of the Self-Consistent Collective Coordinate Method : Occurrence Mechanism of Collective Rotation : Nuclear Physics
- Extraction of Dynamical Collective Subspace for Large-Amplitude Collective Motion : Application to Simple Solvable Model : Nuclear Physics
- Collective, Dissipative and Stochastic Motions in the TDHF Theory : Nuclear Physics
- Concept of Dynamical Collective Submanifold for Large-Amplitude Collective Motion in the TDHF Theory : Nuclear Physics
- Intrinsic Excitation Modes Compatible with Large-Amplitude Collective Motion in the TDHF Theory : Nuclear Physics