Compressible Oscillations of Heavy Nuclei and the Giant Resonance Energies
スポンサーリンク
概要
- 論文の詳細を見る
Compressible oscillations of heavy nuclei are treated by means of the hydrodynamical method with aid of the statistical model. The oscillations are assumed to be small perturbations to the statical equilibrium of the nucleus with constant density. Two kinds of the energy expressions are applied: the purely statistical one due to the Thomas-Fermi-Dirac method for some attractive central Yukawa potentials and the one due to the K-matrix method for nuclear matter with the Gammel-Thaler potential. From the lowest eigenfrequencies of the oscillations obtained corresponding quantum-mechanical excitation energies are calculated, and those for the mode l=1 are shown to be comparable with the giant resonance energies in photo-nuclear reactions of heavy nuclei.
- 社団法人日本物理学会の論文
- 1964-09-05
著者
-
Kawarada Hideo
Department Of Applied Physics Faculty Of Engineering University Of Tokyo
-
ISHIDZU Takehiko
Department of Applied Physics, Faculty of Engineering University of Tokyo
-
Ishidzu Takehiko
Department Of Applied Physics Faculty Of Engineering University
関連論文
- On Solutions of Initial-Boundary Problem for $u_t=u_{xx}+\frac{1}{1-u}$
- Numerical Study of a Shape Design Problem in Elasticity by use of Auxiliary Domain Method
- Stefan-Type Free Boundary Problems for Heat Equations
- On Some Monotonic Approximations for Systems of Non-Linear Heat Propagations
- Estimation of Electrical Conductivity of Composite Materials. : II. Numerical Method for Two-Dimensional Tetragonal Texture
- Compressible Oscillations of Heavy Nuclei and the Giant Resonance Energies
- Estimation of Electrical Conductivity of Composite Materials. I. : Conductivity along Grain Boundary
- On Solutions of Nonlinear Wave Equations
- Generalized Seniority Scheme
- Effects of Nuclear Motion on the Fine and the Hyperfine Structure of Hydrogen, II
- Analytical Solution for S-States with the Woods-Saxon Potentials
- Effects of Nuclear Motion on the Fine and the Hyperfine Structure of Hydrogen, I
- Structure of the f^n Electron Configurations. (II) Spin-orbit Interaction of the Configuration f^3.
- Structure of the f^n Electron Configurations. (I) Coefficients of Fractional Parentage of f^3.
- On the Energy Levels of the Configurations d^4p, d^5p and d^6p.
- Statistical Nuclei with Repulsive Core Interaction