J
Jie Meng
Researcher at Peking University
Publications - 462
Citations - 16325
Jie Meng is an academic researcher from Peking University. The author has contributed to research in topics: Neutron & Mean field theory. The author has an hindex of 60, co-authored 441 publications receiving 13756 citations. Previous affiliations of Jie Meng include Yukawa Institute for Theoretical Physics & Kyoto University.
Papers
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Giant halos in relativistic and nonrelativistic approaches
TL;DR: In this paper, the authors investigated the phenomena of giant halo and halo of even-Ca isotopes in the framework of relativistic continuum Hartree-Bogoliubov (RCHB) and non-relativistic Skyrme HFB (HFB) calculations.
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Mass prediction of proton-rich nuclides with the Coulomb displacement energies in the relativistic point-coupling model
TL;DR: In this article, the Coulomb displacement energies of one-and two-proton emitters were derived from the relativistic point-coupling model, and the implications for the proton drip lines, candidates for two-precision emitters and the impact on the astrophysical rp-process were discussed.
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Searching for a 4 α linear-chain structure in excited states of O 16 with covariant density functional theory
TL;DR: In this article, a study of the linear-chain structure in high-lying collective excitation states of O(n) with covariant density functional theory is presented, where the low-spin states are obtained by configuration mixing of particle-number and angular-momentum projected quadrupole deformed mean-field states with the generator coordinate method.
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Avoid the Tsunami of the Dirac sea in the Imaginary Time Step method
TL;DR: In this paper, the authors used the imaginary time step (ITS) method for the Schrodinger-like equation after avoiding the "tsunami" of the Dirac sea.
Posted Content
Shell-model-Like APproach (SLAP) for the nuclear properties in relativistic mean field theory
TL;DR: In this paper, a Shell-model-like APproach is proposed to treat the pairing correlations in relativistic mean field theory, in which the occupancies thus obtained having been iterated back into the densities.