IOSR-JAP   Volume-13 ~ Issue-3 ~ May – June 2021

ABSTRACT: Annotation. The analysis of the relationship between the density of elements (metals and semimetals) with the parameters of atoms and their nuclei is carried out. It is shown that there is a weak correlation between the density and the diameter of the atom.The relationship between the density and diameter of the atomic nucleus is more significant. A high correlation has been revealed between the density and the ratio of the nuclear volume to the atomic volume.....

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ABSTRACT: The singularity black hole problem and the infinite self-mass of elementary particles are one of the long standing problems in physics. Using the expression of energy in a potential dependent special relativity an advanced model has been constructed. According to this model the energy at which both radius and mass give minimum energy, determine the self-mass and minimum radius. The self-mass was found to be finite, dependent on vacuum energy and coupling constant. The radius was found to be dependent on the short range field coupling constant.

Key words: black hole, elementary particle potential, special relativity, self-mass radius, minimum energy

[1]. Arbab Ibrahim Arbab The Generalized Newton's Law of Gravitation versus the General Theory of Relativity, Jurnal of modern physics, 2012.
[2]. T. Cheng "Relativity" Gravitation, and cosmology, Oxford University press, Oxford, 2005, p. 108.
[3]. Mubarak Dirar Abdallah, Mohammed S. Dawood, Ahmed, A. Elfaki, Sawsan Ahmed Elhouri, Equilibrium of stars within the framework of generalized special relativity theory, international journal of Innovative science, engineering technology, vol. 4, 2019
[4]. Mohammed Saeed Dawood Amir, Mubark Dirar Abdallah, Ibrahim Hassan, Sawsan Ahmed Elhouri Ahmed, Generation of Elementary particles inside black holes of Planck time, international Journal of innovative science engineering and technology, vol.5 issue 1. January 2018.
[5]. Abeer Mohammed Khairy Ahmed, Moshair Ahmed Mohammed Yousif, Zainab Mustapha Kurawa, Zoalnoon Ahmed Abeid Allah Saad, Suhair Salih Makawy, Mohammed Idriss Mohammed, Mubark Dirar Abdalla, Sami Abdalla Elbadawi Mohammed. Determination of photon and Elementary particles rest massed using max well's equations and Generalized potential dependent special relativity. Natural science, Vol.12 (No8). 2020.

ABSTRACT: Spin fluctuation in strong correlated systems give rise to superconductivity in cuprate superconductors. The correlation effects in copper oxide....

Key words: Spin Fluctuation, Superconductivity, Correlation effects

[1]. Evgeny A.S, Lars P and Rubtsov N.A (2018).Quantum spin fluctuations and evolution of electronic structure in cuprates.npj Quantum Materials 3, Article Number 54.
[2]. Scalapino, D.J (2012),A Common thread: the pairing interactions for unconventional superconductors. Rev.Mod.Phys. 84 , 1383-1417.
[3]. Brommer P.E (2005), Spin Fluctuations, Encyclopedia of Materials; Science and Technology.
[4]. Sara A. Lopez-Paz, Sari D.P, Hillier A.D and Aliaro-Franco M.A (2021), Coexistence of magnetism and superconductivity in the Iron containing.....

ABSTRACT:Strongly correlated electronic models such as the Hubbard, are often used to describe the properties of cuprates. In most cases, the projected Hubbard operators are normally used to study this models. The Hubbard operators normally give rise to a specific kinematical interaction of electrons with spin and charge fluctuations. These interaction is induced by the intraband hopping with a coupling parameter, W=8t, of the order of the kinetic energy of electrons which is much larger than the antiferromagnetic exchange interaction J induced by the interband hopping. This study presents a theoretical approach to specific heat of a spin fluctuated superconductivity in electron-doped Niodium Cellenium Copper Oxide (Nd2-xCexCuO4 -NCCO) and Praseodymium Cellenium Copper Oxide (Pr2-xCexCuO4-PCCO) and hole-doped Yitrium Barium Copper Oxide (YBa2CuO7-YBCO) and Lanthanum Strontium Copper Oxide (La2-xSrxCuO4-LSCO) where these interactions are taken into account within the Hubbard operator technique. The low-energy spin excitations are considered for the Heisenberg model, while the electronic properties are studied using the two-dimensional Hubbard-Holstein model.

Keywords: Specific Heat, Electronic Correlations, Cuprate

[1]. Mishchenko, A. S.(2009). Electron-phonon coupling in underdoped high-temperature superconductors. Physics-Uspekhi 52, 1193–1212.https:// doi. org/ 10. 3367/ ufne. 0179. 20091 2b. 1259.
[2]. Mishchenko A, Igor S.T, Nagaosa N and Nikolay P (2021). Fermi blockade of the strong electron-phonon interaction in modelled optimally doped high-temperature superconductors, https:// doi. org/10. 1038/ s41598- 021- 89059-w.
[3]. Farina, D. et al. (2018). Electron-phonon coupling in the undoped cuprate YBa2Cu3O6 estimated from Raman and optical conductivity spectra. Physical Review B 98, 121104. https:// doi. org/ 10. 1103/ PhysR evB. 98. 121104.
[4]. Novelli, F. et al. (2014). Witnessing the formation and relaxation of dressed quasi-particles in a strongly correlated electron system. Nature Communications. 5, 5112. https:// doi. org/ 10. 1038/ ncomm s6112.
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ABSTRACT:Exotic nuclei are nuclei with ratios of neutron number N to proton number Z much larger or much smaller than those of nuclei found in nature. In exotic nuclei the binding or interaction is due to the nucleon-nucleon interaction without the exchange of any third particle between the two interacting nucleons. In the study of such systems, the qualitative behavior of the energy gap has been studied in terms of the nucleon-nucleon interactions, called the pairing correlations that lead to the finite pairing energy, energy gap and the importance of such a relation has been studied, especially in neutron-rich (N>Z) nuclear systems. The dependence of pairing gap on the asymmetry parameter ( ) whether small or large has been studied. To calculate the numerical.......

Key Words: Exotic nuclei, Pairing energy, Isotopes, Binding energy

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[5]. Cherop, H., Muguro, K., & Khanna, K. ( 2019). The role of Shell model in Determing Pairing interactions in Nuclei. National Conference on Technological Innovations in Management, Engeering and Science, 26-27.
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ABSTRACT:This paper is about understanding a some mathematical series - Ramanujan's Summation by Sir Srinivasa Ramanujan (The divine Mathematician) which tells us about some nature/features of universe, space - time, and also points towards Multiverse theory, at What the time of big bang? , visualization of infinity, What will happen after the end of time? , time not being fundamental and Why universe behaves in cyclic manner ?

(1) Time will end in five billion years, physicists predict / www.nationalgeographic.com
(2) https://www. livescience.com/first-matter-perfect-liquid.htm
(3) https://www.newscientist.com/article/mg23431191-500-inside-knowledge-is-information-the-only-thing-that-exists/amp/