The effect of density dependent Av18 effective interaction on the ground state properties of heavy closed shell nuclei
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Cited by (14)
The lowest order constrained variational (LOCV) method for the many-body problems and its applications
2023, Progress in Particle and Nuclear PhysicsThe LOCV averaged two-nucleon interactions versus the density-dependent M3Y potential for the heavy-ion collisions
2015, Nuclear Physics ACitation Excerpt :The LOCV formalism is capable of producing the optimized state and the density-dependent effective NN interactions. The validity of LOCV method, as well as its applications to the nuclear matter and the finite nuclei, have been fully discussed in the works of Owens et al. [19,20] and Modarres et al. [21–28]. The LOCV effective two-body interactions have been tested by calculating the properties of the light and the heavy closed shell nuclei [25–27], and recently it was used to calculate the in-medium nn cross section and the transport properties of neutron matter [29,30].
The transport properties of neutron matter in the LOCV channel dependent effective two-body interactions framework
2014, Nuclear Physics ACitation Excerpt :The LOCV channel and density dependent effective two-body interactions, have been tested by calculating the properties of the light and heavy closed shell nuclei [2,19,20]. The LOCV formalism as well as its applications to nuclear matter and finite nuclei have been fully discussed in the works of Owen et al. [3,4] and Modarres et al. [2,8,19–25] (and the references therein). So the paper is organized as follows: A very short description of the LOCV formalism and calculation of the channel dependent effective two-body interactions are given in Section 2.
The in-medium nn cross section and the transport properties of neutron matter using the LOCV effective two-body interaction
2013, Nuclear Physics ACitation Excerpt :The validity of LOCV method, as well as its application to the nuclear matter and the finite nuclei have been fully discussed in the works of Owens et al. [18,19] and Modarres et al. [15,20–26] (see especially our recent works [22,26,27]). The LOCV effective two-body potentials have been tested by calculating the properties of the light and the heavy closed shell nuclei [23–25]. So the paper is planned as follows: In Section 2, the LOCV method and the calculation of the effective two-nucleon potentials are briefly introduced.