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.

Pan Li | Chemistry and Materials Science | Best Researcher Award

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Dr. Pan Li | Chemistry and Materials Science | Best Researcher Award

Academy of Military Science of the People’s Liberation Army | China

Li Pan is a PhD candidate and active researcher at the Academy of Military Sciences, specializing in computational and experimental materials science. Her academic training and doctoral education are grounded in advanced materials engineering, with a strong emphasis on first-principles calculations and microstructural analysis of alloys. Through her research experiencez, she has developed a solid theoretical and practical understanding of alloy design, phase stability, and structure–property relationships at the atomic and microstructural scales. Li Pan has authored more than 10 peer-reviewed scientific articles published in high-impact journals, including Nature Communications, reflecting the quality and relevance of her work. In addition to journal articles, she has authored one scholarly monograph, highlighting her ability to synthesize complex scientific knowledge into cohesive academic work. Her research interests include density functional theory, alloy microstructure evolution, and computational materials modeling. She has received academic recognition for her research productivity and innovation during her doctoral studies. Overall, Li Pan represents an emerging scholar in materials science whose work contributes to advancing the fundamental understanding and design of advanced alloy systems.

Profile : Orcid

Featured Publications

Pan, L., Huang, L., Wang, X., Xu, W., Zhou, Y., & Chen, J. (2025). Pressure effect on structural, mechanical, electronic and thermodynamic properties of Cr–Co sigma phase using first-principles method. Philosophical Magazine.

Pan, L., Chen, J., Huang, L., & Zhang, J. (2024). First-principles study of structural, mechanical, electronic properties and Debye temperature of NbCo₂ Laves phases under pressure. Physica B: Condensed Matter, —, 415683.

Pan, L., Chen, J., Huang, L., & Zhang, J. (2023). Site occupancy and electronic properties of NbCo₂ Laves phases doped with Re. Computational and Theoretical Chemistry, —, 114389.

Pan, L., Huang, L., Chen, J., & Zhang, J. (2023). Site occupancy of Ru in μ phases: A density functional theory study. International Journal of Modern Physics B, —, 23502648.

Pan, L., Huang, L., Chen, J., & Zhang, J. (2022). First-principles study of Co₂₁W₁₈ with pressure effect: Structural, mechanical, electronic properties and Debye temperature. Materials Today Communications, —, 104276.

Leo Miguel González | Mechanical Engineering | Excellence in Research Award

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Prof. Dr. Leo Miguel González | Mechanical Engineering | Excellence in Research Award

Universidad Politécnica de Madrid | Spain

Leo Miguel González is a distinguished Professor Titular at the Universidad Politécnica de Madrid, specializing in numerical methods in engineering, fluid mechanics, the Navier–Stokes equations, and fluid–structure interaction. With a strong academic foundation that includes degrees in Industrial Engineering, Physics, and a PhD in Engineering from the UPM, he has built a solid career spanning more than two decades in research and university teaching. His experience includes academic roles at Universidad Pontificia Comillas and later progressive appointments at UPM, where he achieved accreditation as Catedrático by ANECA and has obtained three research sexenios. González has contributed to major European and national R&D projects, including SLOWD , FOWTDAMP (Plan Nacional), and IMAGE, collaborating with leading institutions such as Airbus, CNR-INSEAN, and the University of Bristol. His research outputs include patents such as Visitando nuestra ciencia and FEMICAI, reflecting his commitment to innovation. His publication record, citation impact, and h-index are documented in international bibliographic databases such as Scopus and Web of Science. His work continues to advance aerospace propulsion, fluid mechanics, and computational modeling, reinforcing his reputation as a key contributor to European engineering research.

Profile : Google Scholar

Featured Publications

Macia, F., Antuono, M., González, L. M., & Colagrossi, A. (2011). Theoretical analysis of the no-slip boundary condition enforcement in SPH methods. Progress of Theoretical Physics, 125(6), 1091–1121.

Huera-Huarte, F. J., Bangash, Z. A., & González, L. M. (2014). Towing tank experiments on the vortex-induced vibrations of low mass ratio long flexible cylinders. Journal of Fluids and Structures, 48, 81–92.

Azcona, J., Munduate, X., González, L., & Nygaard, T. A. (2017). Experimental validation of a dynamic mooring lines code with tension and motion measurements of a submerged chain. Ocean Engineering, 129, 415–427.

Souto-Iglesias, A., Macià, F., González, L. M., & Cercos-Pita, J. L. (2013). On the consistency of MPS. Computer Physics Communications, 184(3), 732–745.

Huera-Huarte, F. J., Bangash, Z. A., & González, L. M. (2016). Multi-mode vortex and wake-induced vibrations of a flexible cylinder in tandem arrangement. Journal of Fluids and Structures, 66, 571–588.