American Journal of Physics and Applications
Volume 5, Issue 6, November 2017, Pages: 113-119
Received: Oct. 8, 2017;
Accepted: Oct. 20, 2017;
Published: Nov. 24, 2017
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Sara Shaker Mutor, Department of Physics, College of Science for Woman, University of Baghdad, Baghdad, Iraq
Altaf Abdul Majeed Al-Rahmani, Department of Physics, College of Science for Woman, University of Baghdad, Baghdad, Iraq
The ground state proton momentum distributions and elastic charge form factors for 88Sr and 89Y nuclei have been derived and studied using the Coherent Density Fluctuation Model and formulated by means of the fluctuation function (weight function) |f(x)|2 The fluctuation function has been connected to the charge density distribution of the nuclei and determined from the theory and experiment. The feature of the long-tail behavior at high momentum region of the PMD has been calculated by both the theoretical and experimental fluctuation functions. The calculated form factors F (q) of all nuclei under study are in good agreement with those of experimental data throughout all values of momentum transfer q.
Sara Shaker Mutor,
Altaf Abdul Majeed Al-Rahmani,
Elastic Electron Scattering from 88Sr and 89Y Nuclei, American Journal of Physics and Applications.
Vol. 5, No. 6,
2017, pp. 113-119.
Donnelt, T. W. and Sick I. 1984. Nuclear charge density distribution by electron scattering. Rev. Mod. Phys 50, 461.
De Vries, H. and De Jager, C. W. 1987. Elastic Electron Scattering, Data Nucl. Data Tabels, 36.
Fricke, G., Bernhardt, C., Heiling, K., al. At. 1995. Elastic Electron Scattering, Data Nucl. Data.
Proceedings of the international school of Nuclear Physics, Erice, Italy, 1999, edited. Sci. 55 4Bby A. Faessler, Prog. Part. Nucl. Phys. 44(2000); G. Shrieder et al., proposal for GSI RI Beam Factory 2001.
Suda T, in Challenges of Nuclear Structure, Proceeding of 7th International Spring Seminar on Nuclear Physics, edited by Aldo Covello (world Scientific, Singapore, 2002), P. 13; proposal for RIKEN RI Beam Factory 2001.
Antonov, A. N., Kadrev, D. N., Gaidarov, M. K., De Guerra, E. M., Udias, J. M. 2005. On the structure of the holy state in C-12. Phys. Rev. C72, 44307.
Sarriguren P., Moya de Guerra E., Escuderos A. and Carrizo A. C., 1998 β decay and shape isomerism in 74Kr. Nucl. Phys. A635, 55.
Lukyanov V. K., Zemlyanaya E. V, Kadrev D. N., Antonov A. N, Spasova K., Anagnostatos G. S. and Giapitzakis J., 2002 Role of the coulomb distortion in form factor calculations for 12C with alpha- clusterization and nucleon-nucleon correlations, Part. Nucl. Letters, 2 (111) 5.
Gaidarov M. K., Antonov A. N, Massen S. E. and Anagnostatos G. s., 1996 JINR Rapid Commun, No. 6 (80)-96, 23.
Gaidarov M. K., Krumova G. Z., Sarriguren P., Antonov A. N, Ivanov M. V. and Moya de Guerra E. 2009. Moment distributions in medium and heavy exotic nuclei Phys. Rev. C 80 054305.
Antonov A. N., Nikolaev V. A, and Petkov I. Zh., 1980. Nucleon momentum and density distributions of nuclei. Z. Physik, A297, 257-260.
Antonov, A. N., Hodgson, P. E. and Petkov, I. Zh. 1988. Nucleon Momentum and Density Distribution in Nuclei. Clarendon, Oxford.
Vries, H. De., Jager, C. W. and Vries, C. 1987. Nuclear Charge density distribution parameters from elastic electron scattering. Atomic data and nuclear data tables, 36(3), 495-536.
Reuter W., Fricke G., Merle K. and Miska H. 1982 Nuclear charge distribution and rms radius of 12C from absolute electron scattering measurements. Phys. Rev., C 26, 806-818.
AL-Rahmani A. A. 2016 International Journal of Science and Research; IJSR, 5, 1, 741./ AL-Rahmani A. A., 2016 Indian J. Phys.
Al-Rahmani A. A. and Kaddoori F. F. 2017 Elastic electron scattering from some even-even Ge-isotopes, International journal of science and research, 6, 2.
Al-Rahmani A. A., and Hussein H., 2014 Elastic Electron Scattering form Factor for Odd-A 2s-1d Shell Nuclei, Iraqi Journal of Science, 55 4B, 1868.
Al-Rahmani A. A., and Kadhim Y., 2015 Nucleon Momentum Distribution and Elastic Electron Scattering from 59Co, 61Ni, 63Cu and 65Cu nuclei, Journal of AlNahrain University-Science, 18, 4.
Brown B. A., Radhi R. A. and Wildenthal B. H. 1983 Electric quadrupole and hexadecupole nuclear excitations from the perspectives of electron scattering and modern shell-model theory. Phys. Rep., 101, No. 5, 313-358.
Moustakidis, H. C. and Massen, S. E. 2000. One- body density matrix and momentum distribution in s-p and s-d shell nuclei. Phys. Rev. C (62), 34318-1 -34318-7.
Traini M. and Orlandini G. 1985 Nucleon momentum distributions in doubly closed shell nuclei. Z. Physik, Vol. A321, pp. 479-484.
Dal Ri M., Stringari S. and Bohigas O. 1982 Effects of short range correlations on one- and two-body properties of nuclei, Nucl. Phys., A376, 81.
Fivozinsky S. P., Penner S. and Lightbody J. W. 1974 Electron scattering from 88Sr and 89Y physical review C, 9, 4.
Sigghal R. P., Brain S. W., Curran C. S., Drake T. E., Gillespie W. A., Johston A. and Lees E. W. 1973 Elastic Scattering of Electrons from the N=50 Isotopes 88Sr, 89Y, 90Zr and 92Mo Nuclear Physics A 216, 19.
Alster J., Gibson B. F., Mccarthy J. S., Weiss M. S. and Wright R. M. 1973 Elastic Electron from 88Sr, physical review C, 7, 3.
Shevchenko N. G., Afanasev N. G. Savitskii G. A., Khvastunov V. M., Kovalev V. D., Omelaenko A. S., and Gulkarov I. S. 1967 Scattering of 225-Mev Electrons by 89Y and 93Nb Soviet Journal of Nuclear Physics, 5, 5, 676.