Nuclear structure and heavy-ion dynamics: Varenna on Lake Como, Villa Monastero, 27 July-6 August 1982 |
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Page 398
In the DI region the range of expected states lies in the continuum of overlapping,
unbound states far above the line of yrast states in the case of a medium-weight
target nucleus (left-hand side of fig. 4) and even higher in the case of heavier ...
In the DI region the range of expected states lies in the continuum of overlapping,
unbound states far above the line of yrast states in the case of a medium-weight
target nucleus (left-hand side of fig. 4) and even higher in the case of heavier ...
Page 428
The maximum uncertainties of this procedure, as represented by the dashed
lines, are small in the DI region. The lower limit was obtained by neglecting the
dealignment due to neutron emission and pre-yrast y-decay. The upper limit ...
The maximum uncertainties of this procedure, as represented by the dashed
lines, are small in the DI region. The lower limit was obtained by neglecting the
dealignment due to neutron emission and pre-yrast y-decay. The upper limit ...
Page 478
A new concept has been introduced [27] of the critical distance at which two
colliding heavy ions can be fused to form the compound nucleus ; the energy
dependence of a, in this region is interpreted simply by means of a parametrized
...
A new concept has been introduced [27] of the critical distance at which two
colliding heavy ions can be fused to form the compound nucleus ; the energy
dependence of a, in this region is interpreted simply by means of a parametrized
...
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Contents
Introduction | 3 |
Relation with the collective model | 12 |
A Faesslee Competition between collective and singlepar | 30 |
Copyright | |
33 other sections not shown
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Common terms and phrases
a-particle alignment amplitude angle angular distributions angular momentum anisotropy approximation band barrier beam bombarding energy boson calculated Casimir operator classical trajectory coincidence collisions component compound nucleus configuration corresponding Coulomb Coulomb barrier coupling cross-section curve decay deep inelastic deformation degrees of freedom detector dissipation edited effect eigenstates ejectiles emission equations evaporation excitation energy excitation functions exit channel experimental Fermi Fermi surface fermion fission fluctuations fragment spin given Hamiltonian incomplete fusion inertia interaction kinetic energy Lett matrix elements measured momenta neutron neutron emission Nucl nuclear nuclei nucleons observed obtained orbital pairing parameters particles phase space Phys polarization potential probability projectile proton Q-value quadrupole quantum number quasi-particle region residual resonance rotational saddle point scattering shape shell model shown in fig shows single-particle spectra spectrum statistical structure target tion transfer transitions values velocity width y-ray yrast zero