RELATIVISTIC MEAN FIELD STUDY OF SM
ISOTOPES WITH FTBCS APPROACH
A. Karim. International Journal of Recent advances in Physics (IJRAP), 4 (4):
1-11(2015/11 2015)
Abstract
A theoretical study of the thermal pairing correlation as a function of temperature is performed for eveneven
148-154Sm isotopes using Finite Temperature Bardeen-Cooper-Schrieffer (FTBCS) approach within the
Relativistic Mean Field (RMF) model. Numerical results obtained at T=0 are found to be consistent with
the available experimental values. Further, results show the thermal dependency of various nuclear
parameters like gap parameter, pairing energy, binding energy, deformation and density. At T≠0.0 MeV,
the destruction of Cooper pairs and the pairing phase transition as well as shape transition is observed in
148-154Sm nuclei at critical temperature Tc≠0.
%0 Journal Article
%1 karim2015relativistic
%A Karim, Afaque
%D 2015
%J International Journal of Recent advances in Physics (IJRAP)
%K physics
%N 4
%P 1-11
%T RELATIVISTIC MEAN FIELD STUDY OF SM
ISOTOPES WITH FTBCS APPROACH
%U http://wireilla.com/physics/ijrap/papers/4415ijrap05.pdf
%V 4
%X A theoretical study of the thermal pairing correlation as a function of temperature is performed for eveneven
148-154Sm isotopes using Finite Temperature Bardeen-Cooper-Schrieffer (FTBCS) approach within the
Relativistic Mean Field (RMF) model. Numerical results obtained at T=0 are found to be consistent with
the available experimental values. Further, results show the thermal dependency of various nuclear
parameters like gap parameter, pairing energy, binding energy, deformation and density. At T≠0.0 MeV,
the destruction of Cooper pairs and the pairing phase transition as well as shape transition is observed in
148-154Sm nuclei at critical temperature Tc≠0.
@article{karim2015relativistic,
abstract = {A theoretical study of the thermal pairing correlation as a function of temperature is performed for eveneven
148-154Sm isotopes using Finite Temperature Bardeen-Cooper-Schrieffer (FTBCS) approach within the
Relativistic Mean Field (RMF) model. Numerical results obtained at T=0 are found to be consistent with
the available experimental values. Further, results show the thermal dependency of various nuclear
parameters like gap parameter, pairing energy, binding energy, deformation and density. At T≠0.0 MeV,
the destruction of Cooper pairs and the pairing phase transition as well as shape transition is observed in
148-154Sm nuclei at critical temperature Tc≠0.},
added-at = {2018-02-28T13:10:15.000+0100},
author = {Karim, Afaque},
biburl = {https://www.bibsonomy.org/bibtex/24c7cc5d520cceae1424be15e82b2ca68/johnkenadi1985.},
interhash = {452406b3c650faad3b54db5e830fadc6},
intrahash = {4c7cc5d520cceae1424be15e82b2ca68},
journal = {International Journal of Recent advances in Physics (IJRAP)},
keywords = {physics},
month = {2015/11},
number = 4,
pages = {1-11},
timestamp = {2018-02-28T13:10:15.000+0100},
title = {RELATIVISTIC MEAN FIELD STUDY OF SM
ISOTOPES WITH FTBCS APPROACH},
url = {http://wireilla.com/physics/ijrap/papers/4415ijrap05.pdf},
volume = 4,
year = 2015
}