What do you think?
Rate this book
Computational Nuclear Physics 2: Nuclear Reactions
This second volume of Computational Nuclear Physics deals primarily with nuclear reactions; it thus complements the first volume, which concentrates on nuclear structure. Providing discussions of both of the relevant physics as well as the numerical methods, the chapters codify the expertise of many of the leading researchers in computation nuclear physics. The numerical methods discussed are embodied in a fortran code; sample input and test runs are also provided. All codes discussed in the book are included on a diskette; they conform to the fortran 77 standard. The subjects covered include: one-boson exchange scattering; the G-matrix in finite nuclei; the nuclear-matter effective interaction; nuclear collisions; the distorted-wave Born approximation; statistical models with angular-momentum coupling, time-dependent Hartee-Fock approximation for nuclear slabs; the Vlasov-Uehling- Uhlenbeck model; the friction model for deep-inelastic and fusion reactions; the quark model and nucleon-nucleon interactions; hadron-hadron and hadron-nucleus scattering.
203 pages, Hardcover
First published March 1, 1993
8 people want to read
Ratings & Reviews
Friends & Following
Create a free account to discover what your friends think of this book!
Community Reviews
No one has reviewed this book yet.