Quantum-mechanical and classical-limit coupled-channels calculations for very heavy systems

1 December 1981

journal article
research article
Published by American Physical Society (APS) in Physical Review C

Vol. 24 (6) , 2747-2750
https://doi.org/10.1103/physrevc.24.2747

Abstract

Exact quantum-mechanical coupled-channels and classical-limit calculations are compared for the case of a very-heavy-ion reaction exciting strongly collective states via Coulomb and complex nuclear potentials. The calculations are in excellent agreement for transitions which are likely to be experimentally important and provide further support for the classical localization picture in very-heavy-ion collisions.

Keywords

This publication has 10 references indexed in Scilit:

Techniques for heavy-ion coupled-channels calculations. I. Long-range Coulomb coupling
Physical Review C, 1980
Techniques for heavy-ion coupled-channels calculations. II. Iterative solution of the coupled radial equations
Physical Review C, 1980
Surface structure of deformed nuclei by radial and angular localization in heavy ion scattering
Physics Letters B, 1979
Coulomb-Nuclear Interference for High-Spin States Excited by ${}^{86}{Kr}$ , ${}^{40}{Ar}$ , and ${}^{16}O$ Projectiles
Physical Review Letters, 1978
The classical-limit S-matrix and orbital dynamics in semiclassical coulomb excitation theory
Nuclear Physics A, 1978
Theory of coulomb-nuclear interference for heavy-ion excitation of rotational states
Nuclear Physics A, 1976
The classical-limit S-matrix for Coulomb excitation
Physics Letters B, 1976
Interplay of classical and quantal descriptions of heavy-ion interactions
Reviews of Modern Physics, 1975
Extension of the WKB method to wave functions and transition probability amplitudès (S-matrix) for inelastic or reactive collisions
Chemical Physics Letters, 1970
Semiclassical Theory of Atom–Diatom Collisions: Path Integrals and the Classical S Matrix
The Journal of Chemical Physics, 1970