55Mn İzotopunun Fotonükleer Tesir Kesitleri Üzerinde Kollektif Nükleer Seviye Yoğunluğunun Etkisi

Canbula, Bora

doi:10.19113/sdufenbed.639828

Cited by 8 publications

(2 citation statements)

References 16 publications

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“…TheKalbach-Mann systematics (Kalbach and Mann, 1981;Kalbach, 1982) arepreferred for DDX calculations in the code because of play an important role in the pre-equilibrium reaction studies.For compound and direct processes, Hauser-Feshbach,exciton model, and optical model parameters are used (Hauser and Feshbach, 1952;Koning and Delaroche, 2003). There are many theoretical studies (Yiğit, 2021;Özdoğan et al, 2021a;Sadeghi et al, 2010;Kara et al, 2021;Şekerci et al, 2020;Kaplan et al, 2015;Kaplan et al, 2013;Özdoğan, 2021;Küçüksucu et al, 2022;Özdoğan et al, 2021b;Canbula, 2021;Canbula, 2017;Canbula, 2020) using Talys computer code for neutron induced or neutron emission nuclear reactions in the literature.…”

Section: Introductionmentioning

confidence: 99%

Analysis of Double Differential Cross Section for Neutron Induced and Neutron Emission Reaction of 209Bi Isotope

Canbula

2022

International Journal of Pure and Applied Sciences

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The double-differential cross sections (DDX) of neutron induced and neutron emission reaction of 209Bi isotope are calculated and analysed at neutron emission energies below 7 MeV at 3 laboratory angles between 200 and 1500 . In the calculations, the latest version of Talys 1.96 is utilized to calculate the total, direct, pre-equilibrium and compound cross sections, which are obtained using the same parameters. The contributions of direct, pre-equilibrium and compound processes to the total cross section are separately investigated. It is presented that the compound part has the greatest contribution. The calculation results are compared with the existing experimental data taken from EXFOR library.

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Section: Introductionmentioning

confidence: 99%

Analysis of Double Differential Cross Section for Neutron Induced and Neutron Emission Reaction of 209Bi Isotope

Canbula

2022

International Journal of Pure and Applied Sciences

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“…These functions can be selected as an optional input in the computer codes [1,2]. There are many theoretical [3][4][5][6] and experimental [7][8][9][10] works for photon induced reactions in the literature using these codes.…”

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confidence: 99%

A Study of Photoneutron Reactions Using Statistical Analysis

Canbula¹,

Canbula²

2022

East Eur. J. Phys.

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The well-known inputs for determining the reaction cross section are nuclear level density (NLD) and -ray strength functions. In this work, effects of -ray strength functions and NLD models on photoneutron reactions of 76,77,78Se isotopes are analyzed by using the latest version of TALYS computer code. For -ray strength functions, macroscopic and microscopic options which are available in the TALYS, are used in the calculations. Kopecky-Uhl and Brink Axel -ray strength function models as macroscopic options, Hartree-Fock BCS tables, Hartree-Fock Bogolyubov tables and Goriely’s hybrid model as microscopic options are preferred. The statistical analysis is carried out to determine the -ray strength function that reproduces the experimental data quite well. And then, calculations of photoneutron cross section are redone by using the determined -ray strength function via the NLD models. The Constant Temperature Model (CTM), Back Shifted Fermi Gas Model (BSFGM) and Generalized Superfluid Model (GSM) are preferred to use in NLD calculations. The predictions are compared with each other and the available experimental data. EXFOR library is used to take all experimental data.

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Investigation of charged-particle induced reactions on ²⁷Al up to 100 MeV leading to the formation of ²²Na and ²⁴Na

Canbula

2023

Radiochimica Acta

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Studies using theoretical models are of great importance for understanding of reaction process and its nature. In this study, nuclear level density model calculations of the cross sections of 27Al are investigated by using TALYS 1.96 computer code. The cross section calculations of 27Al(α,x)22Na, 27Al(α,x)24Na, 27Al(3He,x)22Na, 27Al(3He,x)24Na, 27Al(p,x)22Na and 27Al(p,x)24Na reactions were carried out for incident particle energy up to 100 MeV. In these calculations, four nuclear level density models, namely constant temperature model (CTM), back-shifted Fermi gas model (BSFGM), generalized superfluid model (GSM) and recently proposed semi-classical Fermi gas model (CSCFGM) are used. This model is developed using the simplest model BSFGM. The most obvious difference between CSCFGM and other models is the inclusion of the collective effects in the base of the formulation. The predicted results are discussed and compared with each other and the available experimental data taken from EXFOR library. In order to better evaluate the model results, chi-squared values are calculated and compared with each other for all analyzed reactions. According to the chi-squared results, CSCFGM gives closer predictions to the experimental data compared with the other models in 4 of the 6 analyzed reactions. Therefore, in this study, it is presented that this model can be reliably used in the reaction cross section calculations.

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55Mn İzotopunun Fotonükleer Tesir Kesitleri Üzerinde Kollektif Nükleer Seviye Yoğunluğunun Etkisi

Cited by 8 publications

References 16 publications

Analysis of Double Differential Cross Section for Neutron Induced and Neutron Emission Reaction of 209Bi Isotope

Analysis of Double Differential Cross Section for Neutron Induced and Neutron Emission Reaction of 209Bi Isotope

A Study of Photoneutron Reactions Using Statistical Analysis

Investigation of charged-particle induced reactions on ²⁷Al up to 100 MeV leading to the formation of ²²Na and ²⁴Na

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55Mn İzotopunun Fotonükleer Tesir Kesitleri Üzerinde Kollektif Nükleer Seviye Yoğunluğunun Etkisi

Cited by 8 publications

References 16 publications

Analysis of Double Differential Cross Section for Neutron Induced and Neutron Emission Reaction of 209Bi Isotope

Analysis of Double Differential Cross Section for Neutron Induced and Neutron Emission Reaction of 209Bi Isotope

A Study of Photoneutron Reactions Using Statistical Analysis

Investigation of charged-particle induced reactions on 27Al up to 100 MeV leading to the formation of 22Na and 24Na

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Resources

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Investigation of charged-particle induced reactions on ²⁷Al up to 100 MeV leading to the formation of ²²Na and ²⁴Na