DRHBc calculations yield ground-state properties, proton and neutron drip lines, and candidate magic numbers N=184, 258, 350 for Z=122 superheavy isotopes, compared against RCHB results.
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Using microscopically computed inputs from FT-CDFT with PC-PK1, the dinuclear system model reproduces known fusion data and predicts maximum cross sections of 48.20 fb, 12.33 fb, 5.25 fb, and 0.47 fb for four reactions targeting element 120.
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Ground-state properties of superheavy $Z=122$ isotopes within the deformed relativistic Hartree-Bogoliubov theory in continuum
DRHBc calculations yield ground-state properties, proton and neutron drip lines, and candidate magic numbers N=184, 258, 350 for Z=122 superheavy isotopes, compared against RCHB results.
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Synthesis mechanism of superheavy element 120: a dinuclear system model approach with microscopic inputs
Using microscopically computed inputs from FT-CDFT with PC-PK1, the dinuclear system model reproduces known fusion data and predicts maximum cross sections of 48.20 fb, 12.33 fb, 5.25 fb, and 0.47 fb for four reactions targeting element 120.