## Proceedings of the International School of Physics "Enrico Fermi.", Volume 23N. Zanichelli, 1963 - Nuclear physics |

### From inside the book

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Page 156

Structure. H. H. Stroke Department of Physics and Research Laboratory of

Electronics Massachusetts Institute of Technology, Cambdridge, Mass. 1. -

Introduction.

**Distribution**of**Nuclear Charge**and Magnetization from Atomic HyperfineStructure. H. H. Stroke Department of Physics and Research Laboratory of

Electronics Massachusetts Institute of Technology, Cambdridge, Mass. 1. -

Introduction.

Page 159

Extended

would arise from a simple expression for the electrostatic interaction energy of

the electron with an assumed uniform

...

Extended

**nuclear charge distribution**. of the**nuclear charge distribution**, whichwould arise from a simple expression for the electrostatic interaction energy of

the electron with an assumed uniform

**nuclear charge distribution**. (A more exact...

Page 163

The hyperfine-structure interaction is therefore sensitive to the finite

The hyperfine-structure interaction is therefore sensitive to the finite

**distribution**of**nuclear**magnetism (we assume that we have made suitable corrections for finite**charge distribution**effects) and we can express this dependence by (5) ...### What people are saying - Write a review

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### Contents

Lectures | 1 |

G E Brown Collective motion and the application of manybody | 99 |

T Ep icson The compound nucleus and the random phase approximation | 142 |

Copyright | |

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### Common terms and phrases

amplitude approximation assume calculated closed shells coefficients commutation compound configuration consider corresponding coupling cross-section define deformed describe determined diagonal dipole dipole strength discuss eigenfunctions eigenstate eigenvalues electron equation excitation energy expectation value experimental factor force gives Green's function ground Hamiltonian harmonic oscillator Hartree-Fock hermitian adjoint hole hyperfine-structure intrinsic irreducible representation isobaric spin isospin isotope shift large number lecture levels linear magnetic matrix elements Ml transitions Mottelson multipole neutron nuclear charge distribution nucleon nucleus number of particles obtained one-particle operator operator F optical potential orbitals orthogonal pair parameters particle-hole interaction perturbation theory Phys physical problem proton quadrupole qualitative quantum number quasi-particle random relation residual interaction resonant rotation rotation group scattering self-consistent shell-model shown single-particle solution spectrum spherical symmetry time-dependent tion total angular momentum two-body two-particle unperturbed variation vector vibrations wave function wave-functions width y-ray zero