## Proceedings of the International School of Physics "Enrico Fermi.", Volume 62N. Zanichelli, 1976 - Nuclear physics |

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Page 103

(3.10) and immediately write down the matrix elements of the effective interaction

PVWP in the model space S. Thus Kb|VW]a) ... Notice that the effective

...

(3.10) and immediately write down the matrix elements of the effective interaction

PVWP in the model space S. Thus Kb|VW]a) ... Notice that the effective

**residual****interaction**is not necessarily Hermitian even though the**residual interaction**from...

Page 107

What we must consider however is that the kinetic-energy operator of the

effective Hamiltonian is only part of the real kinetic-energy operator—the

remaining part is absorbed in the effective

one cannot ...

What we must consider however is that the kinetic-energy operator of the

effective Hamiltonian is only part of the real kinetic-energy operator—the

remaining part is absorbed in the effective

**residual interaction**. Thus, althoughone cannot ...

Page 110

solution corresponding to the energy used to construct the effective interaction

would have meaning. ... the effective

one has to learn to diagonalize nonsymmetric matrices and handle eigenvectors

that ...

solution corresponding to the energy used to construct the effective interaction

would have meaning. ... the effective

**residual interaction**is really no problem—one has to learn to diagonalize nonsymmetric matrices and handle eigenvectors

that ...

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### Contents

Gruppo fotografico dei partecipanti al Corso fuori testo | 1 |

Simple ideas on reaction mechanisms | 19 |

B BUCK Nuclearstructure information from severalnucleon | 29 |

Copyright | |

39 other sections not shown

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### Common terms and phrases

alpha amplitude angle angular distribution angular momentum approximation C+*C calculation centre-of-mass co-ordinates collision compound nucleus configurations continuum core corresponding Coulomb barrier coupling cross-section curve decay deformation DWBA effective eigenstates elastic scattering emission excitation energy excitation functions exit channel experimental fission form factor fragments gamma-rays ground-state Hamiltonian Hartree-Fock heavy ions heavy-ion high-spin incident energy isospin isotopes kinetic energy Lett level density mass matrix elements measured molecular moment of inertia neutron Nucl nuclear nuclei nucleons observed obtained operator optical potential orbits oscillator parameter particle peak Phys projectile proton quadrupole quasi-atom quasi-bound region renormalization residual interaction resonances rotational band shell model shown in Fig shows single-particle spectra spectroscopic spectrum spherical spherical-shell model spin structure sudden approximation target tion transfer reactions transition two-proton transfer values wave function width X-rays Y-ray yrast