Strength of pairing interaction for hyperons in multistrangeness hypernuclei

Rong, Yu-Ting; Zhao, P. W.; Zhou, Shan‐Gui

doi:10.1016/j.physletb.2020.135533

Cited by 26 publications

(15 citation statements)

References 89 publications

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“…Both NL and DD couplings have been implemented in the MDC-RMF model for normal nuclei. The MDC-RMF model with NL self-couplings of meson fields has been also extended to Λ hypernuclei [37,75,77]. In the present work, we have included the DD couplings in the MDC-RMF model for Λ hypernuclei and, under the V 4 symmetry, solved Eqs.…”

Section: Theoretical Frameworkmentioning

confidence: 99%

“…From the theory side, the SU(3) flavor symmetry, which reveals the relation between baryon and meson octet states, is generally used for determining the YN interaction. With the constraint of SU(3) flavor symmetry or experimental observables, many approaches, such as Lattice QCD [19][20][21][22], the chiral effective field theory [23][24][25], the Nijmegen soft-core model [2,26,27], the Jülich hyperon-nucleon model [28][29][30], the Skyrme Hartree-Fock model [31][32][33] and the relativistic mean-field (RMF) model [34][35][36][37], have been used to study the structure of hypernuclei based on various (effective) YN and YY interactions.…”

Section: Introductionmentioning

confidence: 99%

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New effective interactions for hypernuclei in density dependent relativistic mean field model

Rong,

Tu,

Zhou

2021

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New effective ΛN interactions are proposed for the density dependent relativistic mean field model. The multidimensionally constrained relativistic mean field model is used to calculate ground state properties of eleven known Λ hypernuclei with A ≥ 12 and the corresponding core nuclei. Based on effective NN interactions DD-ME2 and PKDD, the ratios R σ and R ω of scalar and vector coupling constants between ΛN and NN interactions are determined by fitting calculated Λ separation energies to experimental values. We propose six new effective interactions for Λ hypernuclei: DD-ME2-Y1, DD-ME2-Y2, DD-ME2-Y3, PKDD-Y1, PKDD-Y2 and PKDD-Y3 with three ways of grouping and including these eleven hypernuclei in the fitting. It is found that the two ratios R σ and R ω are correlated well and there holds a good linear relation between them.

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Section: Theoretical Frameworkmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

New effective interactions for hypernuclei in density dependent relativistic mean field model

Rong,

Tu,

Zhou

2021

Preprint

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“…For studying the various nuclear shapes in a unified framework, the multidimensionally-constrained covari-ant density functional theories (MDC-CDFTs) have been developed, in which all β λµ deformations with even µ can be considered simultaneously [56][57][58][59][60][61][62][63][64][65][66]. The MDC-CDFTs have been used to study the PES's and fission barriers in actinides [57][58][59]67] and superheavy nuclei [65], the third minima on PES's of light actinides [63], the effects of higher order deformations in superheavy nuclei [68], the non-axial octupole Y 32 correlations in N = 150 isotones [57] and Zr isotopes [69], the axial octupole Y 30 correlations in multiple chiral doublet bands (MχD) [70], and the fission dynamics in actinides [62,64,[71][72][73].…”

Section: Introductionmentioning

confidence: 99%

“…The MDC-CDFTs have been used to study the PES's and fission barriers in actinides [57][58][59]67] and superheavy nuclei [65], the third minima on PES's of light actinides [63], the effects of higher order deformations in superheavy nuclei [68], the non-axial octupole Y 32 correlations in N = 150 isotones [57] and Zr isotopes [69], the axial octupole Y 30 correlations in multiple chiral doublet bands (MχD) [70], and the fission dynamics in actinides [62,64,[71][72][73]. Besides, by including the strangeness degrees of freedom, the MDC-CDFTs was employed to study the shape evolution [56,60] and hyperon pairing correlation [66], and build new nucleonhyperon effective interactions [74]. Recently we developed a projected MDCRHB (p-MDCRHB) model by incorporating the parity and angular momentum projections into the MDCRHB model (a kind of MDC-CDFTs implementing Bogoliubov transformation for pairing correlation) to study the low-lying states related to exotic nuclear shapes, e.g., the triangular shape associated with the three-α configuration in 12 C [75].…”

Section: Introductionmentioning

confidence: 99%

Static octupole deformations in $^{96}$Zr from angular momentum and parity projections

Rong¹,

Lü²

2022

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The shapes of zirconium isotopes remain an unsettled question drawing many interests. Recent analysis based on the STAR measurement in relativistic heavy-ion collision experiments provide evidences of non-zero β 30 in the ground state of 96 Zr [1], however, conventional nuclear structure models do not favour these pear-like shapes. To resolve this issue, in this work we perform systematic projection-after-variation calculations for 96 Zr based on the multidimensionally constrained relativistic Hartree-Bogoliubov model. We consider all β λµ with even µ simultaneously and present selected potential energy surfaces (PES's) and projected PES's with certain angular momentum and parity combinations. While the mean-field calculations always predict reflection-symmetric ground states, static octupole deformations emerge after projecting to the 0 + state. We find that β 20 , β 22 , β 30 and β 32 are all necessary for describing the ground state and their values vary significantly for excited states with different angular momenta and parities. These complex structures originate from the competition among various shell structures in this mass region. Our results suggest that both beyond-mean-field effects and exotic shapes are essential elements for understanding the structure of 96 Zr.

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“…To study the ground state properties, potential energy surfaces (PESs), and fission barriers of heavy nuclei and SHN, the multidimensionally-constrained (MDC) CDFTs have been developed [41][42][43][44]. MDC-CDFTs have been applied to study hypernuclei [45][46][47][48], the fission barriers and the PESs of actinide nuclei [42,43,49], the ground state properties and PESs of the 270 Hs [50], the nonaxial octupole Y 32 correlations in N = 150 isotones [51] and Zr isotopes [52], octupole correlations in MχD of 78 Br [53] and Ba isotopes [54], etc. In MDC-CDFTs, the reflection symmetry and the axial symmetry are both broken and the shape degrees of freedom β λµ with µ being even numbers are self-consistently included, such as β 20 , β 22 , β 30 , β 32 , β 40 , β 42 , and β 44 .…”

Section: Introductionmentioning

confidence: 99%

Microscopic study of higher-order deformation effects on the ground states of superheavy nuclei around $^{270}$Hs

Wang,

Sun,

Zhou

2021

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We study the effects of higher-order deformations β λ (λ = 4, 6, 8, and 10) on the ground state properties of superheavy nuclei (SHN) near the doubly magic deformed nucleus 270 Hs by using the multidimensionally-constrained (MDC) relativistic mean-field (RMF) model with five effective interactions PC-PK1, PK1, NL3 * , DD-ME2, and PKDD. The doubly magic properties of 270 Hs are featured by the large energy gaps at N = 162 and Z = 108 in the single-particle spectra. By investigating the binding energies and single-particle levels of 270 Hs in multidimensional deformation space, we find that the deformation β6 has the greatest impact on the binding energy among these higher-order deformations and influences the shell gaps considerably. Similar conclusions hold for other SHN near 270 Hs. Our calculations demonstrate that the deformation β6 must be considered when studying SHN by using MDC-RMF.

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Strength of pairing interaction for hyperons in multistrangeness hypernuclei

Cited by 26 publications

References 89 publications

New effective interactions for hypernuclei in density dependent relativistic mean field model

New effective interactions for hypernuclei in density dependent relativistic mean field model

Static octupole deformations in $^{96}$Zr from angular momentum and parity projections

Microscopic study of higher-order deformation effects on the ground states of superheavy nuclei around $^{270}$Hs

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