UID:
almahu_9949199541302882
Format:
VI, 566 p.
,
online resource.
Edition:
1st ed. 1957.
ISBN:
9783642458729
Series Statement:
Kernphysik / Nuclear Physics ; 8 / 39
Content:
243 number n and orbital angular momentum 1, but also a total angular momentum 1 f = 1 ± !. This modification lead to striking successes for the model. Almost without exception, the ground state spins of odd nuclei were found to be cor rectly predicted. Furthermore several other features of nuclei such as the occur rence of isomeric states and the values of magnetic dipole moments were explained, at least qualitatively. However the model completely failed to explain the large values of observed electric quadrupole moments and certain regularities in nuclear spectra, especially of rare earth nuclei. 4. 1950-1953. The emphatic success of the shell-model modified by a spin orbit force gave the necessary confidence and incentive to physicists to apply the model in detail to individual nuclei. Guided by parallel calculations in atomic spectroscopy, considerable effort was devoted to computing spectra of levels of nuclear systems with the so-called "Intermediate Coupling Model" in which the independent particle motion is considered to be perturbed by central particle particle interactions and spin-orbit forces. Computational labour restricts such calculations to nuclei near closed shells, say within four particles or holes of closed shells. This explains why only light nuclei (A 〈 20) and isolated groups of nuclei higher in the Periodic Table were thus treated. Usually such calculations were rewarded by agreement with experiment especially those for light nuclei 2 and 20S nuclei near the double closed shell at Pb 3.
Note:
The Two-Nucleon Problem -- I. Introduction -- II. Summary of experimental data -- III. Meson theory and two-nucleon interaction -- IV. Low energy phenomena interpreted through central forces -- V. Low energy phenomena with tensor forces -- VI. Radiative processes -- VII. High energy phenomena -- VIII. Mathematical appendix -- General references -- The Three-body Problem in Nuclear Physics -- I. Spin eigenstates and equations of motion -- IL The bound states of H3 and He3 -- III. The continuum states of three nucleons -- IV. Effects of the electromagnetic interaction -- Matter and Charge Distribution within Atomic Nuclei -- A. Electric measures of nuclear size and radial shape -- B. Nuclear force measures of nuclear size and radial shape -- C. Electric measures of nuclear angular shape -- D. Nonelectric measures of nuclear angular shape -- E. Theories of nuclear density -- F. Summary -- General references -- The Nuclear Shell-Model -- I. Introduction -- II. The single particle model -- III. Applications of the single particle model to medium and heavy nuclei. -- IV. Refinements of the single particle model -- V. The individual particle model -- VI. Application of the individual particle model to light nuclei -- VII. Configuration mixing and other methods for improving the individual particle model -- VIII. The theoretical basis of the shell-model -- Acknowledgement -- Models of Nuclear Structure -- and brief survey of the nuclear models -- A. The liquid drop model -- B. The Fermi gas model -- C. The optical model -- D. The alpha particle model -- E. The shell model -- F. The unified model -- Appendix I. Properties of the D functions -- Appendix II. Mathematical relations applicable to nuclear retational states -- Appendix III. The unified model applied to a simple problem -- General references -- Sachverzeichnis (Deutsch-Englisch) -- Subject Index (English-German).
In:
Springer Nature eBook
Additional Edition:
Printed edition: ISBN 9783642458743
Additional Edition:
Printed edition: ISBN 9783642458736
Additional Edition:
Printed edition: ISBN 9783540021711
Language:
English
DOI:
10.1007/978-3-642-45872-9
URL:
https://doi.org/10.1007/978-3-642-45872-9