Research Article
BibTex RIS Cite

Fisyon Bariyer Enerjisi ile Kütle Formülündeki Yüzey Enerji Teriminin Tayini

Year 2017, , 711 - 715, 08.12.2017
https://doi.org/10.17776/csj.362661

Abstract

Atom çekirdeğinin yarı ampirik kütle formülleri çekirdeklerin bağlanma
enerjilerini tanımlar. Bu formüle ait basit yapılandırma ve modelde, nükleer
yapı özellikleriyle ilgili beş terim vardır. Her bir terimdeki katsayılar,
deneysel bağlanma enerji değerlerine uyma gibi çeşitli yaklaşımlarla
belirlenebilir. Bu çalışmada, toplam bağlanma enerjisi üzerinde bir düzeltme
etkisi olan yüzey enerji katsayısı, literatürde daha önce tanımlanmamış bir
yöntemle araştırılmıştır. Bu amaçla çekirdeğin deneysel fisyon bariyer
enerjileri kullanılmıştır. Elde edilen sonuçlara göre en geleneksel
formüllerden birinde yüzey enerji katsayısı 3.4 kat arttırılmıştır.

References

  • [1]. Wang N., et al. Surface diffuseness correction in global mass formula. Phys. Lett. B 2014; 734: 215.
  • [2]. Bethe H.A, Bacher R.F. Stationary States of Nuclei. Rev. Mod. Phys. 1936; 8: 82.
  • [3]. Weizsacker C.F. Zur Theorie der Kernmassen. Z. Phys. 1935; 96: 431-458.
  • [4]. Swiatecki W.J. Nuclear Surface Energy and the Diffuseness of the Nuclear Surface. Phys. Rev. 1955; 98: 203.
  • [5]. Kirson M.W. Mutual influence of terms in a semi-empirical mass formula. Nucl. Phys. A 2008; 798: 29-60.
  • [6]. Utama R., Piekarewicz J., Prosper H.B. Nuclear mass predictions for the crustal composition of neutron stars: A Bayesian neural network approach. Phys. Rev. C 2016; 93: 014311.
  • [7]. Wang N., et al. Mirror nuclei constraint in nuclear mass formula. Phys. Rev. C 2010; 82: 044304.
  • [8]. Myers W.D., Swiatecki W.J. Nuclear masses and deformations. Nucl. Phys. 1966; 81: 1.
  • [9]. Royer G., Subercaze A. Coefficients of different macro–microscopic mass formulae from the AME2012 atomic mass evaluation. Nucl. Phys. A 2013; 917: 1-14.
  • [10]. Nerlo-Pomorska B., et al, Predictions of Nuclear Masses In Different Models, Int. J. Mod. Phys. E 2007, 16: 474.

Surface Energy Coefficient Determination in Global Mass Formula from Fission Barrier Energy

Year 2017, , 711 - 715, 08.12.2017
https://doi.org/10.17776/csj.362661

Abstract

Semi-empirical mass formulae of the atomic
nucleus describe binding energies of the nuclei. In the simple configuration
and pattern of this formula, there are five terms related to the properties of
the nuclear structure. The coefficients in each terms can be determined by
various approach such as fitting on experimental binding energy values. In this
paper, the surface energy coefficient in the formula which is a correction on
total binding energy has been investigated by a method that is not previously
described in the literature. The experimental fission barrier energies of
nuclei have been used for this task. According to the results, surface energy
coefficient in one of the most conventional formula has been improved by a
factor of 3.4.

References

  • [1]. Wang N., et al. Surface diffuseness correction in global mass formula. Phys. Lett. B 2014; 734: 215.
  • [2]. Bethe H.A, Bacher R.F. Stationary States of Nuclei. Rev. Mod. Phys. 1936; 8: 82.
  • [3]. Weizsacker C.F. Zur Theorie der Kernmassen. Z. Phys. 1935; 96: 431-458.
  • [4]. Swiatecki W.J. Nuclear Surface Energy and the Diffuseness of the Nuclear Surface. Phys. Rev. 1955; 98: 203.
  • [5]. Kirson M.W. Mutual influence of terms in a semi-empirical mass formula. Nucl. Phys. A 2008; 798: 29-60.
  • [6]. Utama R., Piekarewicz J., Prosper H.B. Nuclear mass predictions for the crustal composition of neutron stars: A Bayesian neural network approach. Phys. Rev. C 2016; 93: 014311.
  • [7]. Wang N., et al. Mirror nuclei constraint in nuclear mass formula. Phys. Rev. C 2010; 82: 044304.
  • [8]. Myers W.D., Swiatecki W.J. Nuclear masses and deformations. Nucl. Phys. 1966; 81: 1.
  • [9]. Royer G., Subercaze A. Coefficients of different macro–microscopic mass formulae from the AME2012 atomic mass evaluation. Nucl. Phys. A 2013; 917: 1-14.
  • [10]. Nerlo-Pomorska B., et al, Predictions of Nuclear Masses In Different Models, Int. J. Mod. Phys. E 2007, 16: 474.
There are 10 citations in total.

Details

Journal Section Natural Sciences
Authors

Serkan Akkoyun

Tuncay Bayram

Publication Date December 8, 2017
Submission Date September 2, 2017
Acceptance Date November 14, 2017
Published in Issue Year 2017

Cite

APA Akkoyun, S., & Bayram, T. (2017). Surface Energy Coefficient Determination in Global Mass Formula from Fission Barrier Energy. Cumhuriyet Science Journal, 38(4), 711-715. https://doi.org/10.17776/csj.362661