Valentin Ivanov | Electrical Engineering | Research Excellence Award

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Dr. Valentin Ivanov | Electrical Engineering | Research Excellence Award

University of Dschang | Cameroon

Valentin Y. Ivanov is a distinguished physicist and mathematician with dual Ph.D. degrees in Physics (Emission Electronics) and Mathematics (Integral Equations in Electron Optics), along with an M.D. in Physics focused on numerical design of high-power RF generators. With extensive experience in computational physics, electromagnetism, electron optics, and nonlinear beam dynamics, he has authored six monographs and over 300 peer-reviewed articles. His research encompasses high-current electron guns, accelerator structure simulations, microchannel plate amplifiers, and advanced numerical methods for 2D and 3D electrodynamics, electromechanics, and beam optics. Dr. Ivanov has successfully developed more than 20 computational codes for diverse applications, including crystal growth, hydrodynamics, gun design, ground motion analysis, and feedback control in accelerators. He has contributed to numerous international collaborations and publications, including SLAC and IEEE journals. His work has significantly influenced high-power RF sources and accelerator design, earning him recognition in computational and applied physics communities. Dr. Ivanov’s contributions are reflected in his h-index of 2, with over 12 citations and 7 publications. He continues to advance research in electron optics, computational methods, and high-performance simulations, combining theoretical insights with practical applications in accelerator physics and physical electronic instrumentation.

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Featured Publications


3-D Method for the Design of Multi or Sheet Beam RF Sources
V. Ivanov, K. Ko, A. Krasnykh, L. Ives, G. Miram, SLAC-PUB-9366, 2002.

An Electron Gun for a Sheet Beam Klystron
M.E. Read, G. Miram, R.L. Ives, A. Krasnykh, V. Ivanov, IEEE Plasma Phys., 2002, pp. 190–194.

Simulating Accelerator Structure Operation at High Power
V. Ivanov et al., SLAC-PUB-10731, 2003.

An Improved Version of TOPAZ 3D
V. Ivanov, A. Krasnykh, G. Scheitrum, A. Jensen, SLAC-PUB-10081, 2003.

Development of Multiple Beam Guns for High Power RF Sources for Accelerators and Colliders
R.L. Ives, G. Miram, A. Krasnykh, V. Ivanov et al., SLAC-PUB-10704, 2004.

X-Band Linear Collider R&D in Accelerating Structures Through Advanced Computing
Z. Li, N. Folwell, L. Ge, A. Guetz, V. Ivanov et al., EPAC-2004-MOPLT134, SLAC-PUB-10563, 2004.

Sohail Ahmad Khan | Mathematics | Young Scientist Award

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Dr. Sohail Ahmad Khan | Mathematics | Young Scientist Award

Quaid I Azam University Islamabad | Pakistan

Dr. Sohail Ahmad Khan is a distinguished researcher in Applied Mathematics with a strong background in Computational Fluid Dynamics, mathematical modeling, and heat and mass transfer. He earned his Ph.D., M.Phil., and M.Sc. in Applied Mathematics from Quaid-i-Azam University, Pakistan. His academic journey reflects a deep commitment to advancing analytical and numerical methods for nonlinear problems in Newtonian and non-Newtonian fluid mechanics.  Dr. Khan’s research primarily focuses on nanofluid flow, entropy generation, magnetohydrodynamics, and thermal analysis using advanced techniques such as the Homotopy Analysis Method, Finite Difference Method, and Keller Box Method. He actively serves as a reviewer for more than 120 high-impact journals and has received multiple international recognitions, including the World’s Top 2% Scientist ranking by Stanford University in 2022 and 2024. His dedication to mathematical innovation and interdisciplinary applications continues to influence modern engineering and physical sciences, contributing significantly to global research on nonlinear transport phenomena and energy optimization.

Profile : Google Scholar

Featured Publications

Hayat, T., Khan, S. A., Khan, M. I., & Alsaedi, A. (2019). Theoretical investigation of Ree–Eyring nanofluid flow with entropy optimization and Arrhenius activation energy between two rotating disks. Computer Methods and Programs in Biomedicine, 177, 57–68.

Khan, S. A., Hayat, T., Alsaedi, A., & Ahmad, B. (2021). Melting heat transportation in radiative flow of nanomaterials with irreversibility analysis. Renewable and Sustainable Energy Reviews, 140, 110739.

Hayat, T., Khan, S. A., Khan, M. I., & Alsaedi, A. (2019). Optimizing the theoretical analysis of entropy generation in the flow of second grade nanofluid. Physica Scripta, 94(8), 085001.

Razaq, A., Hayat, T., Khan, S. A., & Momani, S. (2023). ATSS model based upon applications of Cattaneo-Christov thermal analysis for entropy optimized ternary nanomaterial flow with homogeneous-heterogeneous chemical reactions. Alexandria Engineering Journal, 79, 390–401.

Khan, S. A., Hayat, T., Khan, M. I., & Alsaedi, A. (2020). Salient features of Dufour and Soret effect in radiative MHD flow of viscous fluid by a rotating cone with entropy generation. International Journal of Hydrogen Energy, 45(28), 14552–14564.