Nuclear Structure and Heavy-ion Collisions: Varenna on Lake Como, Villa Monastero, 9th-21st July 1979, Volume 77R. A. Broglia, R. A. Ricci, Carlo H. Dasso, Società italiana di fisica |
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Page 49
... quantity T implies the proportionality to mass of the extensive quantity x : X E - x = A1 A , One could argue that , perhaps , the very dynamical process responsible for the energy dissipation may distribute the excitation energy just ...
... quantity T implies the proportionality to mass of the extensive quantity x : X E - x = A1 A , One could argue that , perhaps , the very dynamical process responsible for the energy dissipation may distribute the excitation energy just ...
Page 316
... quantity to graph and what co - ordinates to use . Since the equations of motion ( 4.8 ) correspond to the Hamiltonian equation associated with [ μ ( — t ) ğk ( 7 ) ] , it is evident that is the proper quantity to consider ...
... quantity to graph and what co - ordinates to use . Since the equations of motion ( 4.8 ) correspond to the Hamiltonian equation associated with [ μ ( — t ) ğk ( 7 ) ] , it is evident that is the proper quantity to consider ...
Page 364
... quantity R = ( 1.284 * — 0.76 + 0.84 ̄1 ) fm is the effective sharp radius of the nucleus of mass A , which is spherical in its ground state . In fig . 12 we show the quantity ( 7.2 ) for different multipolarities as resulting from our ...
... quantity R = ( 1.284 * — 0.76 + 0.84 ̄1 ) fm is the effective sharp radius of the nucleus of mass A , which is spherical in its ground state . In fig . 12 we show the quantity ( 7.2 ) for different multipolarities as resulting from our ...
Contents
G WOLSCHIN Approaching equilibrium in heavyion collisions 1 Introduction | 1 |
Relative motion in a statistical treatment | 2 |
Time scales | 21 |
Copyright | |
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alignment angular distributions angular momentum approximation average bombarding energy calculations charge classical co-ordinate coefficients components corresponding Coulomb Coulomb barrier cross-section curve damping deep inelastic deformation degrees of freedom density dependence dissipation effects elastic energy loss equation equilibration evaporation evolution operator excitation energy experimental factor Fermi fission fluctuations Fokker-Planck equation fragment spin fusion gamma-ray Hamiltonian Hartree Hartree-Fock heavy-ion collisions heavy-ion reactions impact parameters integral interaction intrinsic kinetic energy l-waves L. G. MORETTO Lett mass asymmetry mass distributions mean field measured MeV/u momenta neutron Nucl nuclear nuclei nucleon observed obtained one-body orbital out-of-plane particle phonon Phys plotted potential projectile projectilelike proton quantal quantity quasi-elastic ratio region relative motion Rendiconti S.I.F. rotation scattering angle shown in fig single-particle statistical surface target TDHF theory tion TKEL trajectories transfer velocity wave functions width yields