Abstract
The gap parameter of the BCS model, and for the first time the gap parameter of the modified Ginzburg-Landau model, are used in the relativistic mean field model at finite temperature. The average binding energy, radii, effective inverse level density parameter, and heat capacity are calculated within both methods for 110-130Sn even–even isotopes. The results are compared with other calculations. We have shown that all of the studied quantities behave smoother as a function of temperature when the gap parameter of the modified Ginzburg–Landau model is used. The heat capacities show S-shaped behavior.
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