Comparative study of Coulomb barrier parameters for deformed nuclei using double-folding model and proximity approach

Ismail, M.; Abdul-Magead, I.A.M.

doi:10.1016/j.nuclphysa.2012.05.011

Cited by 7 publications

(5 citation statements)

References 34 publications

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“…where & is the densities normalization constant, a is the diffuseness parameter which is equal to 0.5 fm [13]. As the matter radius [9] used here in DFM is given by,…”

Section: Effects Of the Deformation Orders β6 And β8 On The Fusion Paramentioning

confidence: 99%

Effects of the deformation orders β6 & β8 on the fusion parameters for spherical-deformed interacting pair

Ismail¹,

Wasfy²,

Abdul-Magead³

et al. 2017

IOSR JAP

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“…where & is the densities normalization constant, a is the diffuseness parameter which is equal to 0.5 fm [13]. As the matter radius [9] used here in DFM is given by,…”

Section: Effects Of the Deformation Orders β6 And β8 On The Fusion Paramentioning

confidence: 99%

Effects of the deformation orders β6 & β8 on the fusion parameters for spherical-deformed interacting pair

Ismail¹,

Wasfy²,

Abdul-Magead³

et al. 2017

IOSR JAP

Self Cite

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“…(1) is used to evaluate both the nuclear and Coulomb contributions of the heavy-ion potential. We assume the realistic Fermi shape density distributions for both the spherical and deformed nuclei [1,13]. In the present calculations, we use the well-known M3Y-Reid effective Nucleon-Nucleon (NN) interaction [4] to compute the nuclear part, which is given by 4 2 .…”

Section: A-double Folding Modelmentioning

confidence: 99%

“…(8) are given in Refs. [1,[18][19]. In case of axially-symmetric nuclei, the nuclear radius   2 2 R  is defined as follows:…”

Section: B-proximity Approachmentioning

confidence: 99%

“…Therefore, the 14-versions of the proximity approaches are different in three main quantities; namely: the universal function ϕ, the surface energy coefficient γ and the central radius form R0i. In evaluating the shortest distance s between two colliding nuclei, we follow the methodology explained in [1]. Referring to Fig.…”

Section: B-proximity Approachmentioning

confidence: 99%

“…In recent papers [1,2], we studied the azimuthal angle and nuclear deformation dependences of the Coulomb barrier parameters (the height of barrier, VB, and its radius, RB) for deformed-deformed pairs of nuclei using the double folding model (DFM) [3][4][5][6] and a simple model based on the proximity approach [7] combined with Denisov's formula [8]. Both models were used to derive the nuclear and Coulomb contributions of the heavy ion (HI) potential.…”

Section: Introductionmentioning

confidence: 99%

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Comparison between different proximity potentials and the double-folding model for spherical–deformed interacting nuclei

Ismail

Abdul-Magead

2016

Can. J. Phys.

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The Coulomb barrier parameters have been calculated for a spherical-deformed interacting pair of nuclei using fourteen different versions of the proximity approaches and a simple analytical formula for the Coulomb part of the heavy ion potential. The results of these proximity versions have been compared with more accurate results obtained from the double folding model (DFM). We have considered the interacting pair 48 Ca + 238 Pu as an example and assumed the presence of the quadrupole, octupole and hexadecapole deformation parameters for 238 Pu. The orientation angle dependence of the Coulomb barrier parameters has been computed for different sets of the deformation parameters. We found that the proximity types named; Prox77, BW Prox91, AW Prox95, Bass Prox77 and Bass Prox80 are the best ones of the available fourteen versions of the proximity approaches for calculating the nuclear part of the interaction potential for a spherical-deformed pair of nuclei.

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Effect of deformation and orientation on interaction barrier and fusion cross-sections using various proximity potentials

2013

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Comparative study of Coulomb barrier parameters for deformed nuclei using double-folding model and proximity approach

Cited by 7 publications

References 34 publications

Effects of the deformation orders β6 & β8 on the fusion parameters for spherical-deformed interacting pair

Effects of the deformation orders β6 & β8 on the fusion parameters for spherical-deformed interacting pair

Comparison between different proximity potentials and the double-folding model for spherical–deformed interacting nuclei

Effect of deformation and orientation on interaction barrier and fusion cross-sections using various proximity potentials

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