ROTATIONAL-INVARIANT MODEL OF THE STATES WITH K<sup>π</sup>=1<sup>+</sup> AND THEIR CONTRIBUTION TO THE SCISSORS MODE

Kuliev, A.A.; Akkaya, R.; Ilhan, M.; Guliyev, E.; Salamov, C.; Selvī, S.

doi:10.1142/s0218301300000179

Cited by 41 publications

(43 citation statements)

References 48 publications

(39 reference statements)

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“…[13], and in framework of this theory we investigated the low-lying dipole mode for nuclei from different areas [8,[13][14][15][16]. Therefore, we restrict ourselves here to a short description of the applications to low-lying M1 and E1 excitations.…”

Section: Theoretical Calculationmentioning

confidence: 99%

“…of the nucleus is taken at rest. According to [13,17], the translational invariance of the single-quasiparticle Hamiltonian can be restored with the aid of a separable isoscalar effective interaction of the form…”

Section: Electric Dipole Statesmentioning

confidence: 99%

“…There, by selection of suitable separable effective isoscalar and isovector forces, without introducing any additional parameters, we can restore rotational invariance of the model Hamiltonian within QRPA for the description of the M1 modes, as well as translational and Galilean invariance for the calculation of E1 excitations in 160 Gd nucleus. (A detailed description of the method was given in Ref [13].) We calculate mean excitation energies and the summed B(M1) value and groundstate transition widths of the dipole excitations.…”

Section: Introductionmentioning

confidence: 99%

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Fine structure of the dipole excitations of the even-even 160Gd nucleus in the spectroscopic region

et al. 2009

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Abstract:In this study, the result of calculations using rotational, translational and Galilean invariant quasiparticle random-phase approximation is presented for the low-lying dipole excitations in the even-even 160 Gd nucleus. Calculations are carried out for both ∆K =1 and ∆K =0 branches. The analysis shows that the main part of spin-1 states, observed at energy 2.4-4 MeV in 160 Gd, have M1 character and are interpreted as main fragments of the scissors mode. The calculations indicate the presence of a few prominent negativeparity dipole ∆K =1 states in the investigated energy region, in agreement with experiment.

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Section: Theoretical Calculationmentioning

confidence: 99%

Section: Electric Dipole Statesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Fine structure of the dipole excitations of the even-even 160Gd nucleus in the spectroscopic region

et al. 2009

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“…The fragmentation of M 1 strength in odd-mass nuclei can be explained using microscopic models such as quasiparticle random phase approximation (QRPA) or the more general quasiparticle phonon nuclear model (QPNM). However, in these models the rotational symmetry of the single particle Hamiltonian simultaneously is violated by the HartreeFock-Bogoliubov (HFB) approaches in the mean field [5][6][7]. The violation of the rotational invariance results in admixtures (spurious states) connected with rotational degree of freedom in K π = 1 + excitation states of eveneven core [7,8].…”

Section: Introductionmentioning

confidence: 99%

“…However, in these models the rotational symmetry of the single particle Hamiltonian simultaneously is violated by the HartreeFock-Bogoliubov (HFB) approaches in the mean field [5][6][7]. The violation of the rotational invariance results in admixtures (spurious states) connected with rotational degree of freedom in K π = 1 + excitation states of eveneven core [7,8]. One has to remove these spurious contributions to determine exactly the energies of excitation states and the M 1 strength distribution in odd-mass nuclei.…”

Section: Introductionmentioning

confidence: 99%

Investigation of low-lying magnetic dipole excitations in the $^{153}$Eu nucleus

Tabar¹

2017

Turk J Phys

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Abstract:The properties of low-lying magnetic dipole ( M 1) excitations in 153 Eu were studied within a rotational invariant quasiparticle phonon model that takes into account the symmetry-restoring as well as spin-spin residual forces.The calculations show that there are purely collective M 1 excitations lying at 2-4 MeV fragmented over orbital 1 + states of the 152 Sm core nucleus. The results were compared to the experimentally known M 1 excitations at 2-3 MeV.A reasonably good agreement in the total transition strength, the centroid energy, and the resonance width was obtained.

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Study of Gamow–Teller transitions in isotopes of titanium within the quasi particle random phase approximation

Çakmak

Nabi

Babacan

et al. 2014

Astrophys Space Sci

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The Gamow-Teller (GT) transition is inarguably one of the most important nuclear weak transitions of the spin-isosopin στ type. It has many applications in nuclear and astrophysics. These include, but are not limited to, r-process β-decays, stellar electron captures, neutrino cooling rates, neutrino absorption and inelastic scattering on nuclei. The quasiparticle random phase approximation (QRPA) is an efficient way to generate GT strength distribution. In order to better understand both theoretical systematics and uncertainties, we compare the GT strength distributions, centroid and width calculations for 40−60 Ti isotopes, using the pn-QRPA, Pyatov method (PM) and the Schematic model (SM). The pn-QRPA and SM are further sub-divided into three categories in order to highlight the role of particle-particle (pp) force and deformation of the nucleus in the GT strength calculations. In PM, we study only the influence of the pp force in the calculation. We also compare with experimental results and other calculations where available. We found that the inclusion of pp force and deformation significantly improves the performance of SM and pn-QRPA models. Incorporation of pp force leads to pinning down the centroid value in the PM. The calculated GT strength functions using the pn-QRPA (C) and SM (C) models are in reasonable agreement with measured data.

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ROTATIONAL-INVARIANT MODEL OF THE STATES WITH K^π=1⁺ AND THEIR CONTRIBUTION TO THE SCISSORS MODE

Cited by 41 publications

References 48 publications

Fine structure of the dipole excitations of the even-even 160Gd nucleus in the spectroscopic region

Fine structure of the dipole excitations of the even-even 160Gd nucleus in the spectroscopic region

Investigation of low-lying magnetic dipole excitations in the $^{153}$Eu nucleus

Study of Gamow–Teller transitions in isotopes of titanium within the quasi particle random phase approximation

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ROTATIONAL-INVARIANT MODEL OF THE STATES WITH Kπ=1+ AND THEIR CONTRIBUTION TO THE SCISSORS MODE

Cited by 41 publications

References 48 publications

Fine structure of the dipole excitations of the even-even 160Gd nucleus in the spectroscopic region

Fine structure of the dipole excitations of the even-even 160Gd nucleus in the spectroscopic region

Investigation of low-lying magnetic dipole excitations in the $^{153}$Eu nucleus

Study of Gamow–Teller transitions in isotopes of titanium within the quasi particle random phase approximation

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Product

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ROTATIONAL-INVARIANT MODEL OF THE STATES WITH K^π=1⁺ AND THEIR CONTRIBUTION TO THE SCISSORS MODE