Abstract

A recent experimental breakthrough identified the last bound neutron-rich nuclei in fluorine and neon isotopes. Based on this finding, we perform a theoretical study of Z = 9, 10, 11, 12 isotopes in the relativistic mean field (RMF) model. The mean field parameters are assumed from the PK1 parameterization, and the pairing correlation is described by the particle number conservation BCS (FBCS) method recently formulated in the RMF model. We show that the FBCS approach plays an essential role in reproducing experimental results of fluorine and neon isotopes. Furthermore, we predict 39Na and 40Mg to be the last bound neutron-rich nuclei in sodium and magnesium isotopes.

Full Text
Published version (Free)

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
Particle number conserving BCS approach in the relativistic mean field model and its application to 32–74Ca**Supported by the National Natural Science Foundation of China (11522539, 11735003, 11775014, 11375022)
Rong An ... Shisheng Zhang
Chinese Physics C | VOL. 42
Rong An, et. al.Rong An ... Shisheng Zhang
25 Sep 2018
Massive neutron stars and Λ-hypernuclei in relativistic mean field models**Supported by National Natural Science Foundation of China (11525524, 11505157, 11375022, 11705163, 11621131001), National Key Basic Research Program of China (2013CB834400), the Physics Research and Development Program of Zhengzhou University (32410017) and the Office of Nuclear Physics in the U.S. Dept. of Energy. The computation for this work was supported by
Ting-Ting Sun ... Shi-Sheng Zhang
Chinese Physics C | VOL. 42
Ting-Ting Sun, et. al.Ting-Ting Sun ... Shi-Sheng Zhang
18 Jan 2018
Relativistic Chiral Mean Field Model for Finite Nuclei
Y Ogawa ... A Haga
Progress of Theoretical Physics | VOL. 122
Y Ogawa, et. al.Y Ogawa ... A Haga
01 Aug 2009
Evolution of nuclear charge radii in copper and indium isotopes * *Supported by the Reform and Development Project of Beijing Academy of Science and Technology (13001-2110); Supported in part by the National Natural Science Foundation of China (12135004, 11635003, 11961141004, 12047513). X. J. is grateful for the support of the National Natural Science Foundation of China (11705118). L.-G. C. is
Rong An ... Li-Gang Cao
Chinese Physics C | VOL. 46
Rong An, et. al.Rong An ... Li-Gang Cao
14 Apr 2022
View more papers

More From: Chinese Physics C

Paper Title
Journal
Date
Author
Building imaginary-time thermal field theory with artificial neural network
Tian Xu ... Yin Jiang
Chinese Physics C | VOL. -
Tian Xu, et. al.Tian Xu ... Yin Jiang
05 Jul 2024
Newtonian limit of Einstein equation with a cosmological constant
Li-Fang Li ... Xiaokai He
Chinese Physics C | VOL. -
Li-Fang Li, et. al.Li-Fang Li ... Xiaokai He
05 Jul 2024
Study on the angular distribution of multinuclear transfer reaction products
Xian-Kai 乐先凯 Le ... Nan 王楠 Wang
Chinese Physics C | VOL. -
Xian-Kai 乐先凯 Le, et. al.Xian-Kai 乐先凯 Le ... Nan 王楠 Wang
03 Jul 2024
Effects of Family Non-universal $Z^{\prime}$ Model in the angular observables of $B\to(\rho,a_{1})\mu^{+}\mu^{-}$ decays
Nimra Farooq ... Faisal Munir Bhutta
Chinese Physics C | VOL. -
Nimra Farooq, et. al.Nimra Farooq ... Faisal Munir Bhutta
03 Jul 2024
View more papers