A Study of Nuclear Structure of (Mo^96,98) by Using Interacting Boson Model-1
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Abstract
In this study, the interacting Boson Model (IBM-1) was used to find the best Hamiltonian structure for studying the (Mo^96,98) structure. For generating the Hamiltonian structure, the calculated energy levels (ground, beta, and gamma bands) and B(E2) transitions for (Mo^96,98) were explored using the optimal parameter values. According to this study and the IBM test findings, (Mo^96,98) are stable isotopes of Molybdenum, and their transition behaviors are close to the SU(5) limitations. When comparing the findings to the experimental data, they demonstrated a good agreement.
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References
[1]. Iachello, Francesco, F. Iachello, and P. Van Isacker. The interacting boson-fermion model. Cambridge University Press, 1991. [2]. Iachello, F., N. V. Zamfir, and R. F. Casten. "Phase coexistence in transitional nuclei and the interacting-boson model." Physical review letters 81.6 (1998): 1191. [3]. Hady, Heiyam Najy, and Ruqaya Talib Kadhim. "Mixed symmetry states in 96mo and 98ru isotones in the framework of interacting boson model." 3c Empresa: investigación y pensamiento crítico 12.1 (2023): 243-255. [4]. Hu, Bao-Yue, et al. "Quadrupole and octupole states in 152Sm using the proton-neutron interacting boson model." Journal of Physics G: Nuclear and Particle Physics (2023). [5]. ghafoor, berun nasralddin, & Shwan, Y. H. (2023). Investigate shielding of standard materials and glass for stopping 662 KeV gamma ray penetrations. Tikrit Journal of Pure Science, 28(2), 83–87. https://doi.org/10.25130/tjps.v28i2.1274 [6] Sabbar, Ali N., and Saad N. Abood. "Investigation of nuclear structure for 130-136NCe nuclei within IBM-1 and DDM models framework." AIP Conference Proceedings. Vol. 2457. No. 1. AIP Publishing LLC, 2023. [7]. El-Gendy, H. S. "Nuclear structure of even-even Ytterbium isotopes 166− 176Yb." Nuclear Physics A 1001 (2020): 121883. [8]. Sulaiman, Huda Talal, et al. "Cd, sn, te, and xe isobars at (A= 116) under the framework of (ibm-1)." NeuroQuantology 18.1 (2020): 99. [9]. El-Gendy, H. S. "Theoretical study of nuclear collective phenomena and broken SU (3) symmetry of even-even 238− 244Pu isotopes." Nuclear Physics A 1006 (2021): 122117. [10]. Scholten, Olaf. "The program package PHINT." (1979). [11] Abriola, D., & Sonzogni, A. A. (2008). Nuclear Data Sheets for A = 96. Nuclear Data Sheets, 109(11), 2501–2655. [12] Thomas, T., et al. "Nuclear structure of 96, 98Mo: Shape coexistence and mixed-symmetry states." Nuclear Physics A 947 (2016): 203-233. [13] Jun Chen, Balraj Singh “Nucl. Data Sheets A=98” Vol 164, 1 (2020) [14]. Zielińska, M., et al. "Electromagnetic structure of 98Mo." Nuclear Physics A 712.1-2 (2002): 3-13. [15] Devi, Vidya. "Structure and odd--even staggering of Mo, Ru, and Pd even--even nuclei in the framework of IBM-1." Turkish Journal of Physics 37.3 (2013): 330-347. [16] Paradis, P., et al. "Static quadrupole moment of the first 2+ state in Mo 98." Physical Review C 20.3 (1979): 1201. [17] Jin-Fu, Zhang, et al. "Mixed Symmetry States in Even-Even 96-108Mo Nuclei." Communications in Theoretical Physics 37.3 (2002): 335.