Analysis of differential cross sections of 12,14Be+12C with energy of 56 MeV / nucleon on the basis of parallel implementation of a four-parameter microscopic nucleus-nucleus scattering model

Автор: Bashashin Maxim, Yermekova Asel, Zemlyanaya Elena, Kakenov Meirzhan, Lukyanov Konstantin

Журнал: Сетевое научное издание «Системный анализ в науке и образовании» @journal-sanse

Статья в выпуске: 4, 2020 года.

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The MPI/C++ /Fortran package of computer codes has been developed for high-performance numerical analysis of experimental data on elastic nucleus-nucleus scattering within a microscopic model of optical potential. In the package, a modified DWUCK4 Fortran-code for calculating the physical characteristics of elastic scattering based on a numerical solution of the corresponding Schrödinger equation has been incorporated into the C++ framework, which is responsible for the input-output procedure and a comparison of numerical results with experimental data. MPI-based parallelism allows efficient calculations of the observables depending on a wide range of parameters of real and imaginary parts of the microscopic OP. The package has been used to analyze experimental data on differential cross sections of the 12,14Ве+12С elastic scattering.

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Parallel computing, nuclear scattering, optical potential, minimization methods

Короткий адрес: https://sciup.org/14123323

IDR: 14123323

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