First Forbidden Beta Transitions of ½+↔ ½- States for ∆J=0 In Spherical Odd Mass Nuclei

Yıl 2019, NSP2018 Özel Sayı, 174 - 182, 28.03.2019

Cevad Selam

Öz

In this study, the first forbidden beta
transitions of   states for ∆J=0 have been investigated in spherical odd mass nuclei. The pn-QRPA model is used with a schematic separable interaction to
calculate first forbidden transitions by considering the Woods–Saxon potential
basis in the Chepurnov parameterization. The transition probabilities in this
model have been calculated within the ξ-approximation.
ξ is a dimensionless parameter
representing the magnitude of the Coulomb energy and is approximated by 1.2ZA^−1/3
[1]. Logft values calculated of first
forbidden transitions are found to be in better agreement with measured data.

Anahtar Kelimeler

First Forbidden , Beta Transitions

Kaynakça

• A. Bohr and B. R. Mottelson, Nuclear Structure vol.I, (W.A. Benjamin, Inc., 1969), p.410.
• I. Borzov, Nuclear Physics A 777, 645 (2006).
• J.-U. Nabi, Adv. Space Res. 46, 1191-1207 (2010).
• O. Civitarese, J. Suhonen, Nucl. Phys. A 607, 152-162 (1996).
• K. Takahashi, M. Yamada, Prog. Theor. Phys. 41, 1470-1503 (1969).
• J. A. Halbleib, R. Sorensen, Nucl. Phys. A 98, 542 10-15 (1967).
• J. Randrup, Nucl. Phys. A 207 (1973).
• K. Muto, et al. Z. Phys. A 333, 125 (1989).
• J.-U. Nabi, S. Stoica, Astrophys. Space. Sci 349, 843-855 (2014).
• S. Ünlü, et al., Nuclear Physics A, 970, 379–387, (2018).
• J. Suhonen, Nucl. Phys. A 563, 205 (1993).
• O. Civitarese, et al. Nucl. Phys. A 453, 45-57 (1986).
• N. Çakmak, et al. Pramana J. Phys. 74, 541-553 (2010).
• J.-Un Nabi, et al., Nuclear Physics A 957, 1-21, (2017).
• J.-Un Nabi et al., Eur. Phys. J. A, 52: 5, (2016).
• J.-Un Nabi, et al., Physica Scripta, 90,11, 115301, (2015).
• J.-Un Nabi, et al., Proceedings of International Conference on Relativistic Astrophysics, Lahore, Pakistan, 10 -14 February 2015, edited by M. Sharif (University of the Puncap, Pakistan, 2015), pp.140-159.
• N.Cakmak et al., The International Conference Nuclear Structure and Related Topics, Proceedings, Vol. II, 30 June – 4 July 2009, edited by A.I. Vdovin, V.V. Voronov and R.V. Jolos (JINR, Dubna, Russia, 2009), pp. 29-37.
• J.A. Halbleib, R.A. Sorensen, Nucl. Phys. A 98, 542 (1967).
• N. Çakmak, Pramana Journal of Physics, 90, 2, 1–15,( 2018).
• S. Ünlü, et al., Nuclear Physics A 957, 491-512, (2017).
• S. Ünlü et al., Nuclear Physics A 939, 13-20, (2015).
• N. Çakmak, et al., Physics of Atomic Nuclei, 75, 1, (2012).
• N. Çakmak et al., Pramana Journal of Physics, 75, 4, (2010).
• S.Unlu, et al., Pramana-Journal of Physics, 71, 3, (2008).
• D.I.Salamov, et al., Nuclear Physics A, 805, 266-268, (2008).
• D.I.Salamov, et al., Pramana-Journal of Physics, 69, 3, (2007).
• N. Cakmak, Azerbaijan Journal of Physics, Fizika, Vol. XVI, No.2, (2010).
• C. Selam et al., Azerbaijan Journal of Physics, Fizika, Vol. XVI, No.2, (2010).
• H.A. Aygor, et al., Central European Journal of Phys., 12, 7, (2014).
• H.A.Aygor et al., Nuclear Physics and Astrophysics: From Stable Beams to Exotic Nuclei, AIP Conf. Proceedings, 25-30 June 2008, edited by I.Boztosun and A.B. Balantekin (American Institute of Physics, Cappadocia, Turkiye, 2008), pp.310-313.
• N. Cakmak et al., Pramana Journal of Physics, 75, 4, (2010).
• S. Ünlü et al., Turk J Phys, 40, 304-315, (2016).
• N.I.Pyatov, JINR, P4-8208, P4-8380, Dubna, (1974).
• B. Singh et al., Nuclear Data Sheets 84, 487 (1998).