## Nuclear Structure and Heavy-ion Dynamics: Varenna on Lake Como, Villa Monastero, 27 July-6 August 1982, Volume 87 |

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Results 1-3 of 81

Page 144

In the simplest case , the

from an entrance channel a to a final chonnel b is caused by an isolated

resonance , so that the corresponding S - matrix can be expressed as [ 3 ] ( 1a )

So = exp [ i ...

In the simplest case , the

**energy**dependence observed in a reaction leadingfrom an entrance channel a to a final chonnel b is caused by an isolated

resonance , so that the corresponding S - matrix can be expressed as [ 3 ] ( 1a )

So = exp [ i ...

Page 318

describing the shape of the system at the time of division , because the distance

between the centroids of the two charges is determining the Coulomb

**energy**of the particle at infinity originates from the Coulomb repulsion . ... taken indescribing the shape of the system at the time of division , because the distance

between the centroids of the two charges is determining the Coulomb

**energy**.Page 320

Detailed evaluation of the final kinetic -

expression for the kinetic -

without a well - defined model for the ridge point degrees of freedom . In what

follows we shall ...

Detailed evaluation of the final kinetic -

**energy**distributions . - A detailedexpression for the kinetic -

**energy**distribution at infinity cannot be obtainedwithout a well - defined model for the ridge point degrees of freedom . In what

follows we shall ...

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### Contents

Introduction | 3 |

Relation with the collective model | 12 |

A FAESSLER Competition between collective and singlepar | 30 |

Copyright | |

36 other sections not shown

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### Common terms and phrases

alignment analysis angle angular distributions angular momentum approximation assumed asymmetry average band barrier beam calculated channel collective collisions component compound consider contributions corresponding coupling cross-section curve decay defined deformation dependence described detector determined direct discussed effect elements emission energy equations evaporation excitation excitation energy expected experiment experimental expression Figure fission fluctuations force fragment function fusion given heavy heavy-ion increase indicated inelastic interaction Legnaro Lett light limit mass mean measured method modes motion neutron Nucl nuclear nuclei nucleons observed obtained operator pairs parameters particles Phys polarization possible potential predictions present probability Q-value reaction region relative residues respectively rotational scattering shape shell shows similar space spectra spin statistical strength structure surface tion trajectory transfer transitions values width y-ray