A comprehensive analysis of 9Li + 70Zn fusion cross section by using proximity potentials, temperature dependent density distributions and nuclear potentials

Aygun, M.; Aygün, Zeynep

doi:10.31349/revmexfis.65.573

Cited by 8 publications

(6 citation statements)

References 24 publications

(35 reference statements)

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“…It is generally accepted that the initial state of any transfer reaction is at zero temperature [58]. If a nuclear-[interaction collision between the nuclei occurs, an increase in temperature can occur [59,60].…”

Section: Reactionmentioning

confidence: 99%

An Extended Analysis of 14N(17F, 18Ne)13C and 14N(7Be, 8B)13C Proton Transfer Reactions Depending on the Temperature, Density Distribution, Nuclear Potential and Nucleon-Nucleon Interactions

Aygun,

Karaali

2024

Ukr. J. Phys.

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The angular distributions of 14N(17F, 18Ne)13C at 170 MeV and 14N(7Be, 8B)13C at 84 MeV proton-transfer reactions depending on the density distributions, temperature, nuclear potentials, and nucleon-nucleon interactions are studied. The calculations are performed by using the code FRESCO based on the distorted wave Born approximation (DWBA) method. The theoretical results of all the approaches are compared with both each other and experimental data, and the similarities and differences of the results are discussed. Additionally, new potential parameter sets for the description of the experimental data of each reaction are developed. Finally, alternative density, nuclear potential, and nucleon-nucleon interactions are proposed for the analysis of the angular distributions of the 14N(17F, 18Ne)13C and 14N(7Be, 8B)13C protontransfer reactions.

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Section: Reactionmentioning

confidence: 99%

An Extended Analysis of 14N(17F, 18Ne)13C and 14N(7Be, 8B)13C Proton Transfer Reactions Depending on the Temperature, Density Distribution, Nuclear Potential and Nucleon-Nucleon Interactions

Aygun,

Karaali

2024

Ukr. J. Phys.

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“…The initial state of a transfer reaction is generally assumed as zero temperature [40]. If a nuclear interaction collision between the projectile and target nuclei occurs, an increase in temperature can be carried out [41,42].…”

Section: Analysis With Temperature-dependent Densitymentioning

confidence: 99%

Investigating the Violation of Charge-parity Symmetry Through Top-quark ChromoElectric Dipole Moments by Using Machine Learning Techniques

Isildak,

Hudaverdi,

Ilgin

et al. 2023

Acta Phys. Pol. B

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In this study, the 6 Li( 3 He,d) 7 Be transfer reaction at 33.3 and 34 MeV is analyzed in the framework of the optical model by using the FRESCO code based on the distorted wave Born approximation (DWBA) method for temperature-dependent and temperature-independent density distributions, different nuclear potentials, and different nucleon-nucleon interactions. The nuclear potential is assumed to have real and imaginary parts in the entrance and exit channels together with the Coulomb potential. The similarities and differences of all the different approaches are discussed, and alternative density, alternative nuclear potential, and alternative nucleonnucleon interactions are suggested.

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“…where g w , g ρ , and g σ are the coupling constants, and m w , m ρ , and m σ are the masses for w, ρ, and σ mesons, respectively. If the single-nucleon-exchange effect is added, equation (40) becomes…”

Section: Microscopic N N Interactionmentioning

confidence: 99%

On the Calculation of Invariant Tensors in Gauge Theories

2023

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A comprehensive analysis of 9Li + 70Zn fusion cross section by using proximity potentials, temperature dependent density distributions and nuclear potentials

Cited by 8 publications

References 24 publications

An Extended Analysis of 14N(17F, 18Ne)13C and 14N(7Be, 8B)13C Proton Transfer Reactions Depending on the Temperature, Density Distribution, Nuclear Potential and Nucleon-Nucleon Interactions

An Extended Analysis of 14N(17F, 18Ne)13C and 14N(7Be, 8B)13C Proton Transfer Reactions Depending on the Temperature, Density Distribution, Nuclear Potential and Nucleon-Nucleon Interactions

Investigating the Violation of Charge-parity Symmetry Through Top-quark ChromoElectric Dipole Moments by Using Machine Learning Techniques

On the Calculation of Invariant Tensors in Gauge Theories

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