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NSR database version of March 21, 2024.

Search: Author = A.Arzhanov

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2016AR15      Phys.Rev. C 94, 054319 (2016)

A.Arzhanov, T.R.Rodriguez, G.Martinez-Pinedo

Systematic study of infrared energy corrections in truncated oscillator spaces with Gogny energy density functionals

NUCLEAR STRUCTURE 16,18,20,22,24O, 90,92,94,96,98,100,102,104,106,108,110,112,114,116,118,120,122,124,126,128,130,132,134,136,138,140,142,144,146,148,150,152Cd; calculated HFB energies as function of oscillator length, convergence pattern of HFB energies as a function of maximum number of SHO shells, S(2n). Z=48, 50, 52, N=40-130; calculated infra red (IR) extrapolations. Self-consistent mean-field calculations based on the Hartree-Fock-Bogolyubov (HFB) method with Gogny type effective interactions.

doi: 10.1103/PhysRevC.94.054319
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2015RO07      Phys.Rev. C 91, 044315 (2015)

T.R.Rodriguez, A.Arzhanov, G.Martinez-Pinedo

Toward global beyond-mean-field calculations of nuclear masses and low-energy spectra

NUCLEAR STRUCTURE Z=10-105, N=10-170; calculated shell effects, masses, S(2n), and energies of first 2+ states in even-even nuclei; deduced rms comparison between theoretical calculations and experimental data for total energies, S(2n), and S(2p). 120Cd; calculated potential energy surfaces as a function of the axial quadrupole deformation with HFB, PN-VAP, and PNAMP approximations. 120Cd, 194Po; calculated convergence of the energy as a function of the number of major oscillator shells. Self-consistent mean-field (MF) and beyond-mean-field (BMF) calculations with Gogny D1S and D1M parametrizations. Comparison with experimental data.

doi: 10.1103/PhysRevC.91.044315
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