Dr. Roman Nevzorov | High Energy Physics | Best Researcher Award

Leading Research Scientist | P.N. Lebedev Physical Institute of the Russian Academy of Sciences | Russia

Dr. Roman Nevzorov is a distinguished theoretical physicist specializing in High Energy Physics, particularly in supersymmetry, Higgs phenomenology, and Grand Unified Theories. His academic foundation was built at the Moscow Institute of Physics and Technology, followed by a Ph.D. at the Institute for Theoretical and Experimental Physics and a habilitation from the Institute for Nuclear Research of the Russian Academy of Sciences. His professional journey includes positions at the I.E. Tamm Theory Department of the P.N. Lebedev Physical Institute, the University of Hawaii, the University of Glasgow, the University of Southampton, and the ARC Centre of Excellence for Particle Physics at the Terascale. With extensive contributions in High Energy Physics, his research has focused on supersymmetric extensions of the Standard Model, dark matter, neutrino physics, cosmology, and the High Energy Physics implications of composite Higgs models. He has presented at numerous international High Energy Physics conferences and contributed over 100 publications to leading journals such as Physical Review D, Physics Letters B, and Nuclear Physics B. His work has been recognized with fellowships from Alfred Toepfer Stiftung and SUPA, reflecting his global standing in High Energy Physics. Dr. Nevzorov’s research skills encompass analytical modeling, supersymmetric theory formulation, and particle-cosmology correlation in High Energy Physics frameworks. His continuous exploration of baryogenesis, leptogenesis, and electroweak symmetry breaking establishes him as a pivotal figure in theoretical High Energy Physics, with his scholarly achievements marking significant progress in understanding the universe at its most fundamental level. Scopus profile of 2,169 Citations, 84 Documents, 28 h-index.

Profile: Scopus

Featured Publications

1. Spin-independent interactions of Dirac fermionic dark matter in the composite Higgs models. Physical Review D.

2. Cold dark matter in the SE6SSM. Conference Paper.

3. Phenomenological aspects of supersymmetric extensions of the Standard Model. Review Article.

4. Leptogenesis and dark matter–nucleon scattering cross section in the SE6SSM. Universe.

5. TeV-scale leptoquark searches at the LHC and their E6SSM interpretation. Journal of High Energy Physics.

Dr. Manda Malekpour | Higgs Physics | Best Researcher Award

Researcher | University of Mazandaran | Iran

Dr. Manda Malekpour is a distinguished physicist specializing in gravity, cosmology, and Higgs Physics, whose academic journey through advanced studies in cosmological inflation and gravitational theory demonstrates exceptional research depth. Her scholarly focus intertwines Higgs Physics with unimodular gravity, emphasizing the theoretical framework connecting cosmic inflation and the Higgs field. Through her doctoral and master’s research, she explored nonminimal unimodular cosmological inflation and the spectral properties of gravitational waves, integrating Higgs Physics concepts into cosmological models. Her publication record, including studies on Higgs inflation in unimodular gravity and ongoing research on reheating after Higgs inflation, highlights her continuing contribution to Higgs Physics. Dr. Malekpour’s academic work reflects mastery in theoretical modeling, programming, and computational simulation relevant to Higgs Physics and early-universe dynamics. Her analytical strength and ability to merge Higgs Physics with quantum field approaches have earned her recognition and awards within academic circles. She possesses strong research skills in mathematical physics, cosmological perturbation theory, and data analysis using Python and Maple. Her work represents a vital link between gravity, cosmology, and Higgs Physics, contributing to the deeper understanding of universe formation mechanisms. Dr. Malekpour’s innovative approach to Higgs Physics continues to advance modern cosmology and inspire new theoretical pathways for studying the universe’s fundamental structure, marking her as a promising contributor to the global scientific community. Her Google Scholar Citations 5, h-index 2, i10 index 0,

Featured Publications

1. Nozari, K., & Malekpour, M. (2024). Higgs inflation in unimodular gravity. Progress of Theoretical and Experimental Physics, 2024(6), 063E02.

2. Malekpour, M., Nozari, K., Rajabi, F., & Rashidi, N. (2024). Non-minimal unimodular inflation. Physics of the Dark Universe, 43, 101405.

3. Malekpour, M., & Nozari, K. (2025). Reheating after the Higgs inflation. Annals of Physics, 170244.