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ADVANCES IN SYSTEMS EVOLUTION THROUGH QUANTUM CORRELATIONS WITHIN ENGINEERING APPLICATIONS

Ghulam Bary, Waqar Ahmed, Riaz Ahmad, Abha Singh, Sayed M. Eldin, Duohui Huang and Ilyas Khan
Additional contact information
Ghulam Bary: Faculty of Science, Yibin University, Yibin, 644000 Sichuan, P. R. China
Waqar Ahmed: ��Department of Bionano Engineering, Hanyang University, Ansan 155-88, South Korea
Riaz Ahmad: ��Department of Mathematics and Statistics, Nanjing University of Information Science and Technology, Nanjing, P. R. China
Abha Singh: �Department of Basic Sciences, College of Science and Theoretical Studies, Dammam Branch, Saudi Electronic University, Riyadh, Saudi Arabia
Sayed M. Eldin: �Center of Research, Faculty of Engineering, Future University in Egypt, New Cairo, Egypt
Duohui Huang: Faculty of Science, Yibin University, Yibin, 644000 Sichuan, P. R. China
Ilyas Khan: ��Department of Mathematics, College of Science Al-Zulfi, Majmaah University, Al Majmaah, 11952, Saudi Arabia

FRACTALS (fractals), 2023, vol. 31, issue 10, 1-13

Abstract: In this paper, we explore the dynamics of quantum correlations in an isolated physical quantum under the influence of intrinsic coherence. We characterize the quantum correlations in the hybrid system using the granular model to investigate the amount of coherent-chaotic fractions, and we particularly use the spherical droplets to measure the specific correlations. Likewise, we examine the effect of coherence on the source evolution of these quantifiers within engineering applications. In particular, the behavior of the multiparticle correlations in terms of the system parameters and the coherence rate is investigated and analyzed in detail to explore the source intrinsic dimensions. We found that the correlations with genuine interferences behave slightly unsymmetrical for identical parameters characterizing the considered complex system and that the genuine correlations are more meaningful than primary interference which probed the chaotic peculiarities against the coherence phenomena. Our results also show that the robustness of quantum correlations can be modulated by adjusting the coherent rate, source physical properties and the initial conditions.

Keywords: Interferometry; Fractal Analysis; Quantum Chaos; Condensation; Source Peculiarities (search for similar items in EconPapers)
Date: 2023
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DOI: 10.1142/S0218348X23401874

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