Nathan Perchikov | Self-organized criticality | Best Researcher Award 

Dr. Nathan Perchikov | Self-organized criticality | Best Researcher Award 

Laboratoire de Physique et Mécanique des Milieux Hétérogènes | France 

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Dr. Nathan Perchikov's academic journey began with a Bachelor of Science in Mechanical Engineering from Tel-Aviv University, Israel, where he graduated magna cum laude and ranked first in his class. His early studies focused on structural and computational mechanics. He continued his academic excellence by pursuing a Master of Science in Mechanical Engineering at Tel-Aviv University, graduating summa cum laude. His thesis on optimal stiffening of rectangular plates in elastostatic bending demonstrated his early interest in computational mechanics. Subsequently, Dr. Perchikov completed his Doctor of Philosophy at the Technion, Israel, with distinction, specializing in Nonlinear Dynamics of Discrete Mechanical Systems with Flat Dispersion Bands.

PROFESSIONAL ENDEAVORS

Dr. Perchikov has held various prestigious positions in the field of computational continuum mechanics and nonlinear dynamics. His professional career began at RADA, where he developed explicit finite-volume solvers for rate-dependent plasticity in metals and composites. He then moved to the Weizmann Institute of Science, focusing on theoretical mesoscopic analysis of plastic deformation in metallic glass. Since 2019, he has been conducting postdoctoral research, including the development of fast finite-element algorithms for analyzing plastic deformation of crystals at Sorbonne, designing acoustic metamaterials at City University of New York, and developing spectral solvers for stress analysis of composite materials at Max-Planck-Institut fur Eisenforschung.

CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Perchikov's research focuses on self-organized criticality in various mechanical systems. His work includes the study of nonlinear dynamics of discrete mechanical systems, such as integrable and non-integrable dynamical systems, stability, and averaging. He has made significant contributions to the understanding of symmetry-induced dynamic localization in lattice structures and mechanical metamaterials, particularly in wave propagation and optimization of initial conditions on resonant manifolds.

IMPACT AND INFLUENCE

Dr. Perchikov's research has had a profound impact on the field of mechanical engineering and computational mechanics. His innovative approaches in nonlinear dynamics and self-organized criticality have been recognized internationally. He has given talks at numerous international conferences and has been invited to lecture at prestigious institutions worldwide. Dr. Perchikov's work is widely cited in academic literature, demonstrating the influence of his research on the broader scientific community.

ACADEMIC CITES

Dr. Perchikov has been cited extensively in various journals and conferences, including Proceedings of the Royal Society A, Chaos, Solitons & Fractals, and others. His research on self-organized criticality and nonlinear dynamics has advanced the understanding of mechanical systems and has contributed significantly to the theoretical and applied mechanics.

LEGACY AND FUTURE CONTRIBUTIONS

Dr. Perchikov's legacy lies in his pioneering research in computational continuum mechanics and nonlinear dynamics. His future contributions are expected to further explore self-organized criticality in complex mechanical systems, advancing the field with new methodologies and applications.

SELF-ORGANIZED CRITICALITY

Dr. Nathan Perchikov's expertise in self-organized criticality is evident through his extensive research in nonlinear dynamics of discrete mechanical systems, mechanical metamaterials, and optimization of mechanical structures. His work has provided new insights into the behavior of complex mechanical systems under critical conditions, significantly impacting the field of computational mechanics and structural engineering.

NOTABLE PUBLICATION

 

Conrad Bertrand Tabi | Nonlinear Optics | Best Researcher Award 

Prof Dr. Conrad Bertrand Tabi | Nonlinear Optics | Best Researcher Award 

Botswana International University of Science and Technology | Botswana 

Auther Profile

Early Academic Pursuits

Dr. Conrad Bertrand Tabi embarked on his academic journey with a Bachelor's Degree in Physics from the University of Yaoundé I in 2003. His passion for physics led him to pursue further studies, culminating in a PhD in Physics from the same institution in 2010. Along the way, he acquired a diverse range of qualifications, including master's degrees and teaching diplomas, enhancing his expertise in the field.

Professional Endeavors

Dr. Tabi's career has been marked by significant milestones, from his early roles as an assistant lecturer at the University of Yaoundé I to his tenure as a full professor at the Botswana International University of Science and Technology (BIUST). He has held various positions within academia, including postdoctoral research fellowships and senior lecturer roles, contributing to the advancement of physics education and research.

Contributions and Research Focus

Dr. Tabi's research focuses on several key areas, with a particular emphasis on NONLINEAR DYNAMICS AND CHAOS. His work encompasses the study of nonlinear systems in diverse settings, including Nonlinear Optics (Optical Fibers, Metamaterials) and Material Sciences (Carbon Nanotubes). Additionally, he has made significant contributions to experimental Biophysics, exploring applications in agriculture and medicine.

Impact and Influence

Through his interdisciplinary approach, Dr. Tabi has established himself as a leading figure in his field. His collaborations with renowned institutions such as the Abdus-Salam International Center for Theoretical Physics (ICTP) and the Max-Planck Institute for the Physics of Complex Systems have expanded the horizons of nonlinear dynamics research. His work has not only advanced scientific knowledge but also inspired future generations of physicists.

Academic Citations

Dr. Tabi's research has garnered attention within the academic community, reflected in his numerous publications and citations. His contributions to journals such as Physica Scripta, Chaos, and Physical Review have enriched the scientific literature and stimulated further inquiry into nonlinear phenomena.

Legacy and Future Contributions

As Dr. Tabi continues to push the boundaries of nonlinear dynamics, his legacy grows stronger with each contribution. His dedication to teaching and research ensures that his impact will endure for years to come, shaping the future of physics and inspiring new avenues of exploration. With his expertise in Nonlinear Optics and other fields, Dr. Tabi remains at the forefront of scientific innovation, poised to make even greater contributions in the years ahead.

Notable Publication

 

Ahmet Samil Demirkol | Nonlinear Dynamics | Best Researcher Award 

Dr Ahmet Samil Demirkol | Nonlinear Dynamics | Best Researcher Award 

Technische Universität Dresden | Germany 

Author Profile

Early Academic Pursuits

Dr. Ahmet Samil Demirkol's academic journey began with outstanding achievements, evident from his entrance exams for both university and graduate studies. Ranking 27th among 0.13 million graduate students in the entrance examination for graduate studies showcases his early dedication and excellence. Moreover, being in the top 0.1% among 1.3 million students in the nationwide university entrance exam underscores his exceptional academic prowess from an early age.

Professional Endeavors

Transitioning from academia to professional research and engineering, Dr. Demirkol's career path reflects a seamless blend of academic rigor and practical application. His roles as a Research & Teaching Assistant at Istanbul Technical University, followed by positions as a Postdoctoral Researcher at the University of Catania and later as a Researcher at TU Dresden, demonstrate his commitment to advancing knowledge and technology in electronics engineering.

Contributions and Research Focus

Dr. Demirkol's contributions span various domains within electronics engineering, with a particular emphasis on Nonlinear Dynamics. His research focuses on diverse areas such as memristor theory, chaotic oscillators, cellular nonlinear networks, and low-power neuromorphic circuit design. His work delves into both theoretical exploration and practical implementation, evident in projects involving memristor-based neuron circuits, distortion analysis of RF switches, and the design of current reference circuits.

Impact and Influence

Dr. Demirkol's impact reverberates through his accolades, including prestigious awards such as the IEEE Transactions on Circuits and Systems Darlington Best Paper Award and the Best Paper award at MOCAST 2022. These recognitions underscore the significance of his contributions to the field of electronics engineering, particularly in areas like memristive systems and compact device modeling.

Academic Citations

His research findings, published in reputable journals and presented at conferences, contribute to the academic discourse and shape the trajectory of future research in his field. Dr. Demirkol's papers are cited by fellow researchers, indicating the relevance and influence of his work within the scholarly community.

Legacy and Future Contributions

Dr. Ahmet Samil Demirkol's legacy extends beyond his individual achievements to the advancement of knowledge and technology in electronics engineering. His interdisciplinary approach, blending concepts from circuit theory, chaos theory, and nonlinear dynamics, paves the way for innovative solutions to contemporary engineering challenges. As he continues to push the boundaries of research and mentor the next generation of engineers, his legacy will endure through his lasting contributions to the field.

Notable Publication