Neutron-induced Gamma-ray Production Cross Sections for Silicon and Tungsten
Neutron-induced Gamma-ray Production Cross Sections for Silicon and Tungsten

Author: W. E. Tucker

Publisher:

Published: 1969

Total Pages: 122

ISBN-13:

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Experimental measurements of the differential cross sections for the production of gamma rays in natural silicon and tungsten in the energy range from 5.0 to 11.0 MeV are presented. Theoretical calculations of the production cross sections for silicon, based on statistical theory and the Satchler formalism, with modifications by Moldauer, have been made, and comparisons of these calculations and other nuclear model calculations with experiment are discussed.

Gamma-Ray Production Cross Sections for Silicon and Copper from Threshold to 20 MeV.
Gamma-Ray Production Cross Sections for Silicon and Copper from Threshold to 20 MeV.

Author: V. C. Rogers

Publisher:

Published: 1975

Total Pages: 35

ISBN-13:

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Gamma-ray production cross sections for neutron interactions in natural silicon and copper have been measured for neutron energies between 0.67 and 20.2 MeV, and for gamma-ray energies between 365 keV and 10.246 MeV. The cross sections are in general agreement with previous work for both discrete peaks and unfolded spectra. (Author).

Neutron Cross Sections
Neutron Cross Sections

Author: S Mughabghab

Publisher: Elsevier

Published: 2012-12-02

Total Pages: 847

ISBN-13: 0323142354

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Neutron Cross Sections, Volume 1: Neutron Resonance Parameters and Thermal Cross Sections, Part A represents the fourth edition of what was previously known as BNL-325, Neutron Cross Sections, Volume 1. This three-chapter book provides the extensive list of detailed individual resonance parameters for each isotope. The first chapter deals with the thermal cross sections and average resonance parameters, as well as the physics of thermal and resonance neutrons, with particular emphasis on evaluation methods. This chapter also includes tables of standards of capture cross sections and scattering lengths, and commonly used nuclear physics formulas. The second chapter covers the direct or valence capture and the Brink-Axel treatment of electric dipole radiation. These topics are followed by a discussion on spin-dependent scattering lengths that are of interest to solid state. The third chapter describes the Maxwellian 30-keV capture cross sections that are of importance to studies of nucleosynthesis and age of the universe. This chapter also examines the s- and p-wave average radiative widths and gamma-ray strength functions that are required in capture cross section measurements. This book will appeal to nuclear and astrophysicists.