Nuclear Fission and Cluster Radioactivity An Energy-Density Functional Approach

Title:

Author:

Hooshyar, M. A. author.

ISBN:

9783540288596

Personal Author:

Hooshyar, M. A. author.

Physical Description:

XII, 200 p. online resource.

Contents:

A Summary of Observed Data and Pre-Amble -- Energy-Density Functional Formalism and Nuclear Masses -- The Decay Process, Fission Barrier, Half-Lives, and Mass Distributions in the Energy-Density-Functional Approach -- Spontaneous Fission Half-Lives of Fermium and Super-Heavy Elements -- Empirical Barrier and Spontaneous Fission -- Induced Fission -- Hot and Cold Fission -- Isomer Fission -- Cluster Radioactivity -- The Relation Between the Asymptotic Kinetic Energy, and the Condition for the Existence of a Meta-Stable State -- The Expression for Half-Lives of Particles Tunneling Through the Barrier Shown in Fig. A. 2 -- Diagonalization of the Coupled Set of Equations Describing Fission.

Abstract:

It is the first application to nuclear physics from energy-density functional method, for which Professor Walter Kohn received the Nobel Prize in Chemistry. The book presents a comprehensive extension of the Bohr-Wheeler theory with the present knowledge of nuclear density distribution function.

Subject Term:

Physics.

Chemistry, Physical organic.

Particles (Nuclear physics).

Nuclear physics.

Nuclear fusion.

Nuclear Physics, Heavy Ions, Hadrons.

Physical Chemistry.

Elementary Particles and Nuclei.

Physics and Applied Physics in Engineering.

Added Author:

Reichstein, I.