Mr. Maaz Ali Khan | Best Researcher Award

Published on by Physics and Quantum Physics

Mr. Maaz Ali Khan | Best Researcher Award

University of Buner | Pakistan

Maaz Ali Khan is a researcher affiliated with the University of Buner, known for his contributions to thermoelasticity and wave propagation in advanced solid media. His work focuses on the behavior of elastic, thermal, and coupled waves in semiconductor materials and micropolar thermoelastic structures, especially under variable thermal conductivity, laser-induced thermal effects, and temperature-dependent properties. He has coauthored several peer-reviewed studies examining reflected elastic waves, Rayleigh wave behavior, and nonlocal micropolar thermoelastic responses, including investigations involving three-phase-lag models and global sensitivity analysis in rotating solids. His research appears in journals such as Acoustical Physics, Physica Scripta, Mechanics of Solids, and Case Studies in Thermal Engineering. Through his collaborative and interdisciplinary work, he continues to advance understanding of thermoelastic wave phenomena in complex materials systems.

Profile : Google Scholar

Featured Publications

Ullah, I., Khan, M. A., Abo-Dahab, S. M., Dar, A., Sial, M. R., Albalwi, M. D., & Jahangir, A. (2024). Study on impact of variable thermal conductivity or laser pulse on reflected elastic waves in a semiconductor medium. Acoustical Physics, 70(2), 278–287.
Saeed, T., Khan, M. A., Alzahrani, A. R. R., & Jahangir, A. (2024). Rayleigh wave through half space semiconductor solid with temperature dependent properties. Physica Scripta, 99(2), 025208.
Khan, M. A., Jahangir, A., Rahman, A., Mahmoud, E. E., & Almuzaini, M. (2025). Global Sensitivity Analysis of Wave Behavior in Rotating Solids with Laser-Induced Thermal and Stress Effects. Mechanics of Solids, 1–24.
Khan, M. A., Kouki, M., Jahangir, A., Riaz, U., & Rahman, A. (2025). Reflection of Coupled Transverse Waves in Nonlocal Micropolar Thermoelastic Media with Three-Phase-Lag Model. Case Studies in Thermal Engineering, 106926.

Dr. Muhammad Bilal | Editorial Board Member

Published on by Physics and Quantum Physics

Dr. Muhammad Bilal | Editorial Board Member

Shanghai University | China

Dr. Muhammad Bilal is an applied mathematics researcher at Shanghai University whose work focuses on nonlinear wave theory, optical solitons, plasma physics, and computational methods for complex dynamical systems. With a strong publication record comprising over 40 documents, more than 1,900 citations, and an h-index of 23, he has established himself as a significant contributor to mathematical physics and nonlinear wave propagation. He completed his advanced education in applied and computational mathematics and has accumulated extensive research experience through collaborative projects in wave dynamics, optical fiber modeling, modulation instability, and analytical methods for nonlinear differential equations. His research interests span nonlinear Schrödinger systems, shallow water wave models, ferromagnetic materials, fractional models, and stability analysis across diverse physical systems. Dr. Bilal has contributed widely cited analytical techniques and exact solution frameworks that have enhanced theoretical understanding and computational modeling in optical communication and fluid dynamics. His work has appeared in reputable international journals such as Mathematical Methods in the Applied Sciences, Results in Physics, Optical and Quantum Electronics, Modern Physics Letters B, and IEEE Access. He has also been recognized for his scientific impact through multiple high-quality publications and his growing influence in applied mathematics research.

Profile : Google Scholar

Featured Publications

Bilal, M. A., Zeeshan, M., Riaz, Q., Shahzad, M. K., Jabeen, H., & Haider, S. A., et al. (2021). Protocol-based deep intrusion detection for DoS and DDoS attacks using UNSW-NB15 and Bot-IoT datasets. IEEE Access, 10, 2269–2283.

Bilal, M., Seadawy, A. R., Younis, M., Rizvi, S. T. R., & Zahed, H. (2021). Dispersive propagation wave solutions to unidirectional shallow water wave Dullin–Gottwald–Holm system and modulation instability analysis. Mathematical Methods in the Applied Sciences, 44(5), 4094–4104.

Bilal, M., Seadawy, A. R., Younis, M., Rizvi, S. T. R., El-Rashidy, K., & Mahmoud, S. F. (2021). Analytical wave structures in plasma physics modelled by the Gilson-Pickering equation using two integration norms. Results in Physics, 23, 103959.

Younis, M., Sulaiman, T. A., Bilal, M., Rehman, S. U., & Younas, U. (2020). Modulation instability analysis and optical solutions to the modified nonlinear Schrödinger equation. Communications in Theoretical Physics, 72(6), 065001.

Younis, M., Younas, U., Rehman, S. U., Bilal, M., & Waheed, A. (2017). Optical bright–dark and Gaussian soliton with third-order dispersion. Optik, 134, 233–238.