The authors of this paper have provided a set of ready-to-run FORTRAN programs that should be useful in the field of theoretical nuclear physics. The purpose of this document is to provide a simple synopsis of the programs and their use. A separate section is devoted to each program set and includes: abstract; files; compiling, linking, and running; obtaining results; and a tutorial
A FORTRAN program is presented for processing pulse-height data for particles emitted from a nuclear...
Eight computer programs make up a nine volume synthesis containing two design methods for nuclear ro...
AbstractRandom Phase Approximation (RPA) is one of the main approximation tools in studying nuclear ...
Because of encouraging response for first two editions of the book and for taking into account valua...
Drawing on examples from various areas of physics, this textbook introduces the reader to computer-b...
Three Fortran programs, written for the IBM-704 computer, process the data from multichannel pulse-h...
This book systematically classifies the mathematical formalisms of computational models that are req...
This study consists of six different computer programs. These programs are based on one dimensional ...
ABSTRACT This paper summarizes the work being performed at the Department of Nuclear Engineering (ww...
Nuclear physics can greatly advance by taking advantage of quantum computing. Quantum computing can ...
A three-part Fortran program for IBM 704 computation of the relative cross sections of isomers produ...
Fortran M is a small set of extensions to Fortran that supports a modular approach to the constructi...
Although it has many flaws by comparison with more modern programming languages, Fortran remains the...
TIC-TOC-TOE computer program for radiation shielding design and analysis in nuclear rocket system
The massively parallel computer QCDOC (QCD On a Chip) of the RIKEN BNL Research Center (RI3RC) will ...
A FORTRAN program is presented for processing pulse-height data for particles emitted from a nuclear...
Eight computer programs make up a nine volume synthesis containing two design methods for nuclear ro...
AbstractRandom Phase Approximation (RPA) is one of the main approximation tools in studying nuclear ...
Because of encouraging response for first two editions of the book and for taking into account valua...
Drawing on examples from various areas of physics, this textbook introduces the reader to computer-b...
Three Fortran programs, written for the IBM-704 computer, process the data from multichannel pulse-h...
This book systematically classifies the mathematical formalisms of computational models that are req...
This study consists of six different computer programs. These programs are based on one dimensional ...
ABSTRACT This paper summarizes the work being performed at the Department of Nuclear Engineering (ww...
Nuclear physics can greatly advance by taking advantage of quantum computing. Quantum computing can ...
A three-part Fortran program for IBM 704 computation of the relative cross sections of isomers produ...
Fortran M is a small set of extensions to Fortran that supports a modular approach to the constructi...
Although it has many flaws by comparison with more modern programming languages, Fortran remains the...
TIC-TOC-TOE computer program for radiation shielding design and analysis in nuclear rocket system
The massively parallel computer QCDOC (QCD On a Chip) of the RIKEN BNL Research Center (RI3RC) will ...
A FORTRAN program is presented for processing pulse-height data for particles emitted from a nuclear...
Eight computer programs make up a nine volume synthesis containing two design methods for nuclear ro...
AbstractRandom Phase Approximation (RPA) is one of the main approximation tools in studying nuclear ...