Behzad Nemati Saray | Mathematics | Best Researcher Award

Published on by Book of Award

Assoc. Prof. Dr. Behzad Nemati Saray | Mathematics | Best Researcher Award

Institute for Advanced Studies in Basic Sciences (IASBS) | Iran

Assoc. Prof. Dr. Behzad Nemati Saray is a distinguished mathematician whose research spans numerical analysis, applied mathematics, and computational methods. With an impressive record of 840 citations, h-index of 17, and i10-index of 22, his work demonstrates significant academic influence, particularly in developing efficient algorithms and multiwavelet-based methods for solving differential and integro-differential equations. He has published over 30 refereed journal papers and numerous conference articles that address complex mathematical problems, including fractional equations, Burgers equations, and Sturm–Liouville systems. As a reviewer for MathSciNet (AMS) and an active contributor to international mathematical conferences, he has earned recognition for his leadership roles, such as Director-in-Charge of the Seasonal School in Mathematics at IASBS and Executive Board member in academic seminars. His scholarly excellence was acknowledged when he was named Best Researcher of the Year (2023) at the Institute for Advanced Studies in Basic Sciences (IASBS). Dr. Saray’s contributions to the fields of computational mathematics and applied analysis continue to advance numerical modeling, multiscale methods, and spectral techniques, making his research a cornerstone for future developments in applied and computational mathematics. His sustained impact reflects a deep commitment to innovation and precision in mathematical sciences.

Profiles : Scopus | Orcid | Google Scholar

Featured Publications

Liu, T., Ding, B., Nemati Saray, B., Juraev, D. A., & Elsayed, E. E. (2025). On the pseudospectral method for solving the fractional Klein–Gordon equation using Legendre cardinal functions. Fractal and Fractional, 9(3), 177. Multidisciplinary Digital Publishing Institute.

Shi, L., Nemati Saray, B., & Soleymani, F. (2024). Sparse wavelet Galerkin method: Application for fractional Pantograph problem. Journal of Computational and Applied Mathematics, 116081.

Liu, T., Xue, R., Ding, B., Juraev, D. A., Nemati Saray, B., & Soleymani, F. (2024). A novel and effective scheme for solving the fractional telegraph problem via the spectral element method. Fractal and Fractional, 8(12), 711. Multidisciplinary Digital Publishing Institute.

Ranjbari, S., Baghmisheh, M., Jahangiri Rad, M., & Nemati Saray, B. (2024). On the wavelet Galerkin method for solving the fractional Fredholm integro-differential equations. Computational Methods for Differential Equations.

Tarbiyati, H., & Nemati Saray, B. (2023). Weight initialization algorithm for physics-informed neural networks using finite differences. Engineering with Computers.

Afarideh, A., Dastmalchi Saei, F., & Nemati Saray, B. (2023). Eigenvalue problem with fractional differential operator: Chebyshev cardinal spectral method. Journal of Mathematical Modeling.

Shahriari, M., Nemati Saray, B., Mohammadalipour, B., & Saeidian, S. (2023). Pseudospectral method for solving the fractional one-dimensional Dirac operator using Chebyshev cardinal functions. Physica Scripta.

Pourfattah, E., Jahangiri Rad, M., & Nemati Saray, B. (2023). An efficient algorithm based on the pseudospectral method for solving Abel's integral equation using Hermite cubic spline scaling bases. Applied Numerical Mathematics.

Nemati Saray, B. (2022). On a multiwavelet spectral element method for integral equation of a generalized Cauchy problem. BIT Numerical Mathematics.

Nemati Saray, B. (2021). Pseudospectral method for solving fractional Sturm-Liouville problem using Chebyshev cardinal functions. Physica Scripta.

Nemati Saray, B. (2021). Abel’s integral operator: Sparse representation based on multiwavelets. BIT Numerical Mathematics.

Nemati Saray, B. (2021). On the sparse multiscale representation of 2-D Burgers equations by an efficient algorithm based on multiwavelets. Numerical Methods for Partial Differential Equations.

Nemati Saray, B. (2020). On the sparse multi-scale solution of the delay differential equations by an efficient algorithm. Applied Mathematics and Computation.

Nemati Saray, B. (2020). Reconstruction of the Sturm-Liouville differential operators with discontinuity conditions and a constant delay. Indian Journal of Pure and Applied Mathematics.

Nemati Saray, B. (2020). Heat and mass transfer investigation of MHD Eyring–Powell flow in a stretching channel with chemical reactions. Physica A: Statistical Mechanics and its Applications.

Nemati Saray, B. (2020). Sparse multiscale representation of Galerkin method for solving linear-mixed Volterra-Fredholm integral equations. Mathematical Methods in the Applied Sciences.

Xin-Jian Wen | Physics and Astronomy | Best Researcher Award

Published on by Book of Award

Prof. Xin-Jian Wen | Physics and Astronomy | Best Researcher Award

Shanxi University | China

Prof. Xin-Jian Wen is a distinguished theoretical physicist whose research focuses on the properties of strongly interacting matter, the mechanism of QCD phase transitions, and the behavior of strange quark matter under extreme conditions such as high density and strong magnetic fields. With an h-index of 11, 43 published documents, and 567 citations from 352 sources, his work has made a significant contribution to advancing quantum chromodynamics (QCD) phenomenology at finite temperature and density. A graduate of Shaanxi Normal University and the Chinese Academy of Sciences, Prof. Wen has developed innovative models to study the stability of strange quark matter, strangelets, and the quark-hadron mixed phase in compact stars. His pioneering investigations using the quasiparticle model and multi-reflection expansion approach have provided new insights into surface tension effects, magnetic field interactions, and color-flavor-locked (CFL) phases. Prof. Wen has collaborated with several leading physicists and published influential papers in top-tier journals such as Physical Review D and Physical Review C. As a full professor at the Institute of Theoretical Physics, Shanxi University, he continues to advance theoretical research in QCD and compact star physics.

Profiles : Scopus | Orcid

Featured Publications

Zhang, J., & Wen, X.-J. (2025, September 12). Stability analysis of magnetized quark matter in Tsallis statistics. Universe.

Jiang, X.-W., & Wen, X.-J. (2025, June 20). Deconfinement of magnetized quark matter in a quasiparticle description. International Journal of Modern Physics A.

Niu, Y.-H., Wen, X.-J., & Singha, S. (2025, January). Tensor condensate accompanied by chiral transition in a strong magnetic field. Advances in High Energy Physics.

Su, S.-Z., Zhao, Y.-Y., & Wen, X.-J. (2025, January 31). The finite volume effects of the Nambu–Jona–Lasinio model with the running coupling constant. Journal of Physics G: Nuclear and Particle Physics.

Zhang, J., & Wen, X.-J. (2024, November 26). QCD phase transition with nonextensive NJL model in the strong magnetic field. Physical Review D.

He, R., & Wen, X.-J. (2024, June 1). Anisotropy and paramagnetism of QCD matter with an anomalous magnetic moment. Journal of Physics G: Nuclear and Particle Physics.

Wen, X.-J., & Zhang, J. (2024, February 12). Thermal effect in hot QCD matter in strong magnetic fields. Physical Review C.

Wang, Y., & Wen, X.-J. (2024, January 8). Isospin asymmetric matter in uniform and nonuniform strong magnetic fields. Physical Review C.

He, Y.-Y., & Wen, X.-J. (2023, April 24). Medium effect on anisotropic surface tension of magnetized quark matter. Physical Review D.

He, R., & Wen, X.-J. (2022, December 29). Effect of anomalous magnetic moment on the chiral transition at zero temperature in a strong magnetic field. Physical Review D. amics of PNJL model at zero temperature in a strong magnetic field. Physical Review D.

Yang, L., & Wen, X.-J. (2021, December 8). Compressibility of quark matter under strong magnetic field in the NJL model. Physical Review D.

Su, S.-Z., & Wen, X.-J. (2021, July 1). Influence of magnetic fields on the stability and the phase transition of quark matter in the Nambu–Jona–Lasinio model. Journal of Physics G: Nuclear and Particle Physics.

Wen, X.-J., He, R., & Liu, J.-B. (2021, May 17). Effect of the anomalous magnetic moment on the chiral transition in a strong magnetic field. Physical Review D.

Wang, Y., & Wen, X.-J. (2020, October 1). Magnetized hot and dense quark matter in the Polyakov Nambu–Jona–Lasinio model. Journal of Physics G: Nuclear and Particle Physics.