Statistical properties and stability of hot nuclei in a semiclassical relativistic approach

Abstract: Within the finite-temperature relativistic mean field theory models (linear and nonlinear) and using the local density approximation, the statistical properties and stability of hot nuclei are investigated. It is found that the nonlinear model presents higher thermal response than the linear model. The critical temperature is found to be about 9 MeV for the linear model and about 8 MeV for the nonlinear one. The value of the energy level density parameter obtained by the nonlinear model is found to be of the o… Show more

“…Supernovae and neutron stars are studied together in [Su92]. Statistical properties are examined in [Vo92,Ra93], and collective modes at finite T in [Ni93]. Various aspects of relativistic heavy-ion physics are discussed in [Du95].…”

Recent Progress in Quantum Hadrodynamics

“…Supernovae and neutron stars are studied together in [Su92]. Statistical properties are examined in [Vo92,Ra93], and collective modes at finite T in [Ni93]. Various aspects of relativistic heavy-ion physics are discussed in [Du95].…”

Recent Progress in Quantum Hadrodynamics

Relativistic effects in the 12C−12C reaction

Heavy-ion interactions in relativistic mean-field models