What people are saying - Write a review
We haven't found any reviews in the usual places.
Justification of the Model
The Optical Model and Nuclear Structure
3 other sections not shown
Other editions - View all
absorption optical angles angular distributions antisymmetrized average Born approximation boundary condition calculated central potential centre of mass complete compound particles coordinate Coulomb potential defined depends differential cross section dispersion formula eigenfunctions eigenvalues elastic scattering energy region equal excited exclusion principle expansion experimental Fermi form factor Fourier transform giant resonances given high energies Hodgson impulse approximation incident neutron incident nucleon incident particle integral interaction isotopic spin Kapur-Peierls Kerman low energy many-particle mass system matrix element mean free path measured Mev protons momentum transfer nonlocal nonlocal potential nuclear size optical model operator optical model potential parameters partial wave functions phase shift Phys polarisation predicted problem protons radial extent radius reaction cross section real and imaginary s-wave scattering amplitude scattering cross section Schrodinger equation Section 2.2 spin-orbit potential strength function surface absorption target mass number target nucleus tion total cross section uniformly convergent vector volume absorption potential wave function Weisskopf