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On deformability of atoms—comparative study between atoms and atomic nuclei
Bibliographic Information
- Published
- 2021-08-18
- Resource Type
- journal article
- Rights Information
-
- https://publishingsupport.iopscience.iop.org/iop-standard/v1
- https://iopscience.iop.org/info/page/text-and-data-mining
- DOI
-
- 10.1088/1361-6455/ac170c
- 10.48550/arxiv.2009.05955
- Publisher
- IOP Publishing
Search this article
Description
<jats:title>Abstract</jats:title> <jats:p>Atomic nuclei can be spontaneously deformed into non-spherical shapes as many-nucleon systems. We discuss to what extent a similar deformation takes place in many-electron systems. To this end, we employ several many-body methods, such as the unrestricted Hartree–Fock method, post-Hartree–Fock methods, and the density functional theory, to compute the electron density distribution in atoms. We show that the electron density distribution of open-shell atoms is deformed due solely to the single-particle valence orbitals, while the core part remains spherical. This is in contrast to atomic nuclei, which can be deformed collectively. We qualitatively discuss the origin for this apparent difference between atoms and nuclei by estimating the energy change due to deformation. We find that nature of the interaction plays an essential role for the collective deformation.</jats:p>
Journal
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- Journal of Physics B: Atomic, Molecular and Optical Physics
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Journal of Physics B: Atomic, Molecular and Optical Physics 54 (16), 165201-, 2021-08-18
IOP Publishing
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Keywords
- Nuclear Theory
- Atomic Physics (physics.atom-ph)
- FOS: Physical sciences
- Computational Physics (physics.comp-ph)
- Physics - Atomic Physics
- Condensed Matter - Other Condensed Matter
- Nuclear Theory (nucl-th)
- Quantum Gases (cond-mat.quant-gas)
- Condensed Matter - Quantum Gases
- Physics - Computational Physics
- Other Condensed Matter (cond-mat.other)
Details 詳細情報について
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- CRID
- 1360857593724777600
-
- ISSN
- 13616455
- 09534075
-
- Article Type
- journal article
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- Data Source
-
- Crossref
- KAKEN
- OpenAIRE
