Theoretical Nuclear Physics: Nuclear ReactionsPresents, in a concise, systematic and lucid form, the achievements of nuclear research over half a century. Throughout, the emphasis is on the fundamental principles underlying our present understanding of nuclear structure and interactions. Readers will gain sufficient insight to turn to the original literature and review articles with ease and to their best advantage. |
Contents
INTRODUCTORY REVIEW | 1 |
MULTIPLE SCATTERING | 74 |
FORMAL THEORY OF NUCLEAR REACTIONS | 149 |
Copyright | |
44 other sections not shown
Other editions - View all
Common terms and phrases
absorption angle angular distribution angular momentum approximation assumed calculation center-of-mass Chapter collision component compound nucleus consequence correlations Coulomb Coulomb barrier cross section described deShalit and Feshbach deuteron discussion doorway effect eigenvalues elastic scattering electron energy average energy dependence entrance channel evaluated example excitation energy experimental factor Feshbach 74 final given Hamiltonian Hartree-Fock heavy ions Heff hypernucleus incident projectile inelastic integral interaction involved isospin k₁ kaon kinetic energy Lett mass matrix elements mb/sr MeV/c momentum transfer multistep neutron Nucl nuclear reactions nucleon obtained operator optical potential orbital P₁ parameters particle Pauli Pauli principle Phys pion proton r₁ r₂ residual nucleus resonance result scattering amplitude Schrödinger equation shell model shown in Fig single-particle spin statistical T₁ target nucleus term theory two-body wave function width yields zero