MODELS AND STUDIES OF PHONON MOTION AROUND ACOUSTIC BLACK HOLES

Authors

  • B. Toshmatov, Abdullayev Abdulvositxon Abdumutalxon ugli Doctor of Physics and Mathematics, New University of Uzbekistan 2nd year master's student, Faculty of Physics and Mathematics, Namangan state university

Keywords:

Acoustic black hole, phonon motion, energy transport, phonon dispersion, wave behavior, energy dissipation, nanoelectronics, thermal management, photonic devices, structural optimization.

Abstract

This study investigates the interaction between an acoustic black hole (ACBH) and phonon motion, focusing on energy transport, wave behavior, and phonon dispersion. The research analyzes how acoustic black hole structures can concentrate and dissipate phonon energy, providing insights into the mechanisms of energy localization and damping. Results indicate that ACBHs serve as an effective tool for controlling phonon dynamics, which has significant implications for nanoelectronics, thermal management, and phononic devices. The study combines theoretical modeling and computational simulations to evaluate phonon behavior around various ACBH geometries and material parameters, highlighting the role of structural design in optimizing phonon energy control.

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References

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Published

2025-10-09

How to Cite

B. Toshmatov, Abdullayev Abdulvositxon Abdumutalxon ugli. (2025). MODELS AND STUDIES OF PHONON MOTION AROUND ACOUSTIC BLACK HOLES. Journal of Applied Science and Social Science, 15(10), 215–219. Retrieved from https://www.internationaljournal.co.in/index.php/jasass/article/view/1994

Issue

Vol. 15 No. 10 (2025): Volume 15 Issue 10

Section

Articles

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