University of Nizwa | Oman
Dr. Sunil Kumar Maurya is a researcher in differential equations, similarity transformation methods, Einstein’s field equations, mathematical physics, applied mathematics, general relativity, cosmology, compact star modelling, astrophysics, wormholes, and modified theories of gravity using gravitational decoupling techniques. He has supervised international Ph.D. research, completed funded projects in astrophysics, cosmology, and nanofluid heat transfer, and actively contributes as a principal investigator and co-investigator. His administrative roles include leading academic departments, overseeing graduate studies and scientific research, and serving in various acting dean positions. He has contributed extensively to institutional committees in quality assurance, accreditation, curriculum development, cultural activities, and postgraduate research. Dr. Maurya’s achievements include national-level research fellowships, recognition among the world’s top 2% most cited scientists by Stanford University, and multiple institutional awards for outstanding research contributions.
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Sekhmani, Y., Maurya, S. K., Rayimbaev, J., Altanji, M., Ibragimov, I., & Muminov, S. (2025). Exact static and slowly rotating phantom conformal nonlinear-electrodynamic black holes in Bumblebee gravity with Lorentz violation and shadow phenomenology. Physics of the Dark Universe, 102116.
Ditta, A., Ashraf, A., Maurya, S. K., Ali, A., Alimova, A., & Atamurotov, F. (2025). Oscillatory motion and QPO signatures around rotating short-hairy black holes: Bridging theory and observation. Physics of the Dark Universe.
Javed, F., Waseem, A., Mustafa, G., Maurya, S. K., Shrahili, M., & Atamurotov, F. (2025). Massless and massive scalar shell dynamics from rotating BTZ black holes with nonminimally coupled scalar fields. Scientific Reports.
Maurya, S. K., Ditta, A., Bouzenada, A., Ashraf, A., Ali, A., & Atamurotov, F. (2025). Barrow entropy effects on thermodynamics and QPOs of a quintessence-surrounded Frolov black hole model. Nuclear Physics B.
Maurya, S. K., Ashraf, A., Ali, A., Govender, M., Javed, F., & Channuie, P. (2025). Modeling anisotropic compact objects in the vanishing complexity regime through gravitational decoupling. European Physical Journal C.