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Mic-Mac model based on the Wigner-Kirkwood method
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About a decade ago we proposed a new Microscopic-Macroscopic (Mic-Mac) model where the semiclassical Wigner-Kirkwood expansion of the energy up to fourth-order in ħ is used to compute the shell corrections in a deformed Woods-Saxon potential instead of the usual Strutinsky averaging scheme [1,2]. For a set of 551 even-even nuclei computed with this new model, we found a rms deviation of 610 keV from the experimental masses, similar to the value obtained using the well-known Finite Range Droplet Model and the Lublin-Strasbourg Drop Model for the same set of nuclei. In a next step, we compute the ground-state properties of these 551 nuclei with the same method but using the mean-field provided by the Gogny forces within an Extended Thomas-Fermi approximation. We find that this Mic-Mac model using the Gogny D1S (D1M) force gives a fairly good description of the ground-state energies with a rms deviation of 834 keV (819 keV). This implies that Mic-Mac models based on effective two-body forces, for example Gogny D1S and D1M interactions, perform practically as well as the most efficient Mic-Mac models regarding ground-state properties.
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BHAGWAT, A., CENTELLES AIXALÀ, Mario, VIÑAS GAUSÍ, Xavier, WYSS, R.. Mic-Mac model based on the Wigner-Kirkwood method. _European Physical Journal A_. 2023. Vol. 59, núm. 1-13. [consulta: 24 de gener de 2026]. ISSN: 1434-6001. [Disponible a: https://hdl.handle.net/2445/215706]