Mahmoud Mahdian | Quantum Computing | Best Researcher Award

Published on by Applied Scientist

Assoc. Prof. Dr. Mahmoud Mahdian | Quantum Computing | Best Researcher Award

Associate Professor at University of Tabriz | Iran

Dr. Mahmoud Mahdian is an accomplished Associate Professor of Theoretical Physics at the University of Tabriz, Iran, specializing in quantum information and computation. His expertise spans quantum algorithms, optimization, simulation, and quantum machine learning, with extensive contributions to the study of open quantum systems, relativistic entanglement, and quantum correlations. Throughout his career, Dr. Mahdian has combined rigorous theoretical insight with innovative computational approaches, contributing significantly to the advancement of quantum technologies. His international experience includes research appointments at Harvard University, the University of Toronto, and the Beijing Computational Science Research Center. With a strong track record of publications in leading journals, he has made pioneering contributions to entanglement detection methods, hybrid quantum-classical algorithms, and quantum simulation of biological processes such as photosynthesis. His teaching covers foundational and advanced courses at undergraduate, master’s, and doctoral levels, mentoring numerous theses in quantum information science. Dr. Mahdian has also presented his research at major international conferences, strengthening scientific collaboration and visibility. Recognized for academic excellence, he has been awarded for his outstanding doctoral work and continues to integrate machine learning and quantum computing toward next-generation computational paradigms. His career reflects a commitment to both cutting-edge research and the training of future quantum scientists.

Professional Profile

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Education

Dr. Mahmoud Mahdian earned his Ph.D. in Theoretical Physics from the University of Tabriz, Iran, specializing in quantum information and computation. His doctoral research, titled Relativistic Quantum Entanglement and supervised by Professor M. A. Jafarizadeh, explored the interplay between relativity and quantum correlations, providing foundational insights for high-energy quantum information science. Prior to this, he completed his M.Sc. in Theoretical Nuclear Physics at the University of Tabriz, where his thesis involved calculating spectral density distributions and nuclear mass using a generalized Thomas–Fermi model. His academic journey began with a B.Sc. in Theoretical Physics from Ferdowsi University of Mashhad, Iran, where he built a strong foundation in classical mechanics, electromagnetism, and quantum theory. This progression from nuclear to quantum information physics reflects his evolving research trajectory toward quantum computation and simulation. Each academic stage was marked by deep engagement with both mathematical formalism and physical interpretation, enabling him to tackle complex interdisciplinary problems. His exposure to diverse physics domains—from nuclear structure modeling to relativistic quantum mechanics—has shaped his holistic approach to research. This solid academic background has been instrumental in his later contributions to quantum algorithms, quantum machine learning, and simulations of open quantum systems on near-term quantum devices.

Professional Experience

Dr. Mahmoud Mahdian’s professional career reflects a sustained commitment to quantum information research, international collaboration, and advanced teaching. He is currently an Associate Professor at the University of Tabriz, following his tenure as an Assistant Professor. His international appointments include a research assistantship in the Aspuru-Guzik Group at Harvard University’s Department of Chemistry and Chemical Biology and a visiting scholar position at the University of Toronto. Earlier, he contributed to the Beijing Computational Science Research Center in quantum optics and theoretical physics. Dr. Mahdian began his academic career as a lecturer at Payame Noor University of Tabriz and worked as a physics teacher prior to that. His teaching has spanned undergraduate, master’s, and doctoral levels, covering quantum mechanics, statistical mechanics, group theory, quantum field theory, and quantum computing. He has supervised numerous theses, ranging from quantum entanglement dynamics to machine learning-assisted quantum algorithms. Alongside his academic responsibilities, Dr. Mahdian has published extensively, presented at high-profile conferences, and fostered collaborations across Iran, China, Canada, and the United States. His blend of research innovation and educational leadership positions him as a key contributor to advancing quantum sciences globally.

Research Interests

Dr. Mahdian’s research is deeply rooted in the intersection of theoretical physics, quantum information science, and computational methods. His core interests include quantum algorithms, quantum optimization, quantum simulation, and quantum machine learning. In quantum algorithms, he focuses on both purely quantum and hybrid quantum-classical approaches tailored for noisy intermediate-scale quantum (NISQ) devices. His work in quantum optimization explores advanced variational algorithms for solving combinatorial and physical system challenges. In quantum simulation, Dr. Mahdian investigates open quantum systems, particularly biological energy transport phenomena such as the Fenna–Matthews–Olson (FMO) complex, using methods from both mathematical physics and experimental quantum computing platforms. His contributions to quantum machine learning involve developing entanglement detection techniques via classical and quantum support vector machines, enhancing the interface between artificial intelligence and quantum theory. These research themes are united by a goal to bridge theoretical insights with computational implementations, enabling scalable solutions for real-world quantum problems. His recent work has also addressed the role of symmetry protection in quantum batteries, noise-resilient algorithms, and quantum neural network architectures. By integrating diverse quantum paradigms, Dr. Mahdian seeks to push the boundaries of how quantum technologies can address complex scientific and industrial challenges.

Research Skills

Dr. Mahdian possesses an extensive skill set encompassing analytical theory, computational modeling, and algorithm development in quantum science. He is proficient in programming languages such as Python, C++, and FORTRAN, with deep expertise in scientific libraries and packages including QuTiP, Qiskit, Cirq, and PennyLane for quantum computation. His computational toolkit also includes Mathematica, MATLAB, and Maple, which he uses for symbolic manipulation, numerical simulation, and data visualization. His theoretical strengths lie in quantum mechanics, quantum field theory, statistical mechanics, group theory, and mathematical physics, allowing him to model and analyze complex quantum systems. Experimentally aligned, he has collaborated on NMR quantum computing and simulation projects, translating theory into practical quantum protocols. Dr. Mahdian is adept at designing quantum algorithms for optimization, simulation, and entanglement detection, with applications in physics, chemistry, and biology. His interdisciplinary competence extends to applying machine learning for quantum system analysis, including supervised and unsupervised techniques for quantum data classification. He also brings strong skills in scientific writing, peer-reviewed publishing, and international conference presentation. By combining programming, analytical modeling, and collaborative research experience, Dr. Mahdian has built a versatile skill set that supports both academic and applied advancements in quantum technologies.

Awards and Honors

Dr. Mahdian’s academic excellence has been recognized through notable honors, including being named Outstanding and Selected Ph.D. Physics Student by the President of the University of Tabriz. This distinction reflects his exceptional performance during his doctoral studies in quantum information and computation. Beyond formal awards, his achievements include multiple invitations to speak at prestigious conferences and international schools on quantum information science, showcasing his leadership in the field. His contributions to cross-disciplinary projects—spanning quantum biology, machine learning, and computational physics—have also led to collaborative opportunities with leading institutions such as Harvard University and the University of Toronto. The breadth of his published work, which includes high-impact articles in Physical Review A, Quantum Information Processing, and European Physical Journal D, further underscores his recognition in the scientific community. His role as a supervisor for cutting-edge research projects in quantum simulation, entanglement detection, and variational quantum algorithms highlights his influence on the next generation of physicists. Dr. Mahdian’s career distinctions not only reflect personal accomplishment but also his commitment to advancing global research networks and fostering interdisciplinary innovation in quantum science.

Publications Top Notes

Title: Quantum discord evolution of three-qubit states under noisy channels
Year: 2012
Citations: 34

Title: Detecting some three-qubit MUB diagonal entangled states via nonlinear optimal entanglement witnesses
Year: 2008
Citations: 19

Title: Hybrid quantum variational algorithm for simulating open quantum systems with near-term devices
Year: 2020
Citations: 14

Title: Investigating a class of bound entangled density matrices via linear and nonlinear entanglement witnesses constructed by exact convex optimization
Year: 2008
Citations: 14

Title: Incoherent quantum algorithm dynamics of an open system with near-term devices
Year: 2020
Citations: 10

Conclusion

Dr. Mahmoud Mahdian’s academic journey is a testament to dedication, innovation, and a deep passion for advancing quantum science. With a robust educational foundation in theoretical physics and a research portfolio that bridges quantum information, computation, and machine learning, he has made substantial contributions to both fundamental theory and practical quantum technologies. His professional experiences span leading international institutions, enabling him to engage with diverse research cultures and cutting-edge methodologies. As a teacher, he has inspired and guided numerous students, equipping them with the knowledge and skills to thrive in an evolving scientific landscape. His publications and conference presentations have contributed to shaping discussions on entanglement, quantum simulation, and noise-resilient algorithms, reinforcing his role as an influential voice in the field. Dr. Mahdian’s blend of theoretical insight, computational expertise, and collaborative spirit positions him as a driving force in the pursuit of scalable, real-world quantum applications. Looking ahead, his work promises to further the integration of quantum technologies into interdisciplinary domains, from biology to artificial intelligence, fostering scientific breakthroughs with far-reaching societal impact.

Sergey Timashev | Quantum Science | Best Researcher Award

Published on by Applied Scientist

Prof. Sergey Timashev | Quantum Science | Best Researcher Award

Researcher at National Research Nuclear University MEPhI, Russia

Serge F. Timashev is a distinguished Russian physicist and physical chemist whose multidisciplinary research spans over six decades. Born in 1937 in Irbit, Sverdlovsk region, Russia, he has profoundly influenced fields ranging from nuclear physics and membrane science to geophysics and quantum mechanics. He earned his M.Sc. in Physics from Moscow State University in 1960, followed by a Ph.D. in Nuclear Physics in 1966, and a Doctor of Science in Physics and Mathematics in 1975. Dr. Timashev has held prestigious research positions in top Russian scientific institutes and is currently affiliated with the National Research Nuclear University MEPhI in Moscow. A pioneer in Flicker-Noise Spectroscopy and the physical chemistry of membrane processes, he has authored over 300 publications and several monographs. His seminal work has laid the foundation for innovative signal analysis techniques and energy-dependent separation methods. His contributions have earned him numerous accolades, including the Russian Federation Government Prize in Science and Technology and the honorary title of Honoured Scientist of the Russian Federation. Dr. Timashev’s career embodies scientific excellence, intellectual breadth, and a lifelong commitment to advancing knowledge in fundamental and applied sciences.

Professional Profile

Education

Serge F. Timashev’s academic foundation reflects his deep and broad engagement with the physical sciences. He commenced his formal studies at Moscow State University, where he earned a Master of Science degree in Physics in January 1960. Pursuing a keen interest in the nuclear domain, he completed his Ph.D. in Nuclear Physics at the Institute of Theoretical and Experimental Physics in Moscow in June 1966, presenting a dissertation on the mechanisms of direct nuclear reactions involving two-nucleon transfers. His academic journey culminated with a Doctor of Science degree in Physics and Mathematics in October 1975 from the Institute of Semiconductor Physics, part of the Siberian Branch of the USSR Academy of Sciences in Novosibirsk. This advanced work focused on optical and electric phenomena in semiconductors containing deep centers and in the presence of electric fields. His educational trajectory not only provided him with a profound understanding of classical and quantum physics but also positioned him to engage in complex, interdisciplinary research. Each milestone in his education expanded his scope, laying the groundwork for his contributions to diverse fields including quantum mechanics, membrane processes, and the analysis of chaotic systems.

Professional Experience

Throughout his career, Serge F. Timashev has held a series of prestigious research and academic positions across leading scientific institutions in Russia. His professional journey began at the Karpov Institute of Physical Chemistry, where he served as a Staff Scientific Researcher from 1963 to 1969. He then moved to the Institute of Physical Chemistry under the USSR Academy of Sciences, working as a Senior Scientific Researcher until 1979. During the next two decades (1979–1999), he led the Laboratory of Membrane Processes at the Karpov Institute, directing innovative studies in membrane chemistry and process engineering. From 1999 to 2018, he continued at the Karpov Institute as a Principal Researcher, spearheading advanced investigations in electrochemistry and signal analysis. Since 2018, Dr. Timashev has served at the National Research Nuclear University MEPhI (Moscow Engineering Physics Institute), where he remains an influential figure in theoretical and applied physical science research. His editorial contributions to major journals such as the Russian Journal of Physical Chemistry and Russian Journal of Electrochemistry further reflect his standing in the academic community. Across all his roles, Dr. Timashev has consistently demonstrated scientific leadership, mentoring, and a commitment to pushing disciplinary boundaries.

Research Interests

Dr. Serge F. Timashev’s research interests are exceptionally broad, encompassing multiple scientific domains, each characterized by depth and innovation. One of his most significant contributions is the development of Flicker-Noise Spectroscopy (FNS), a novel phenomenological method for extracting information from chaotic signals. FNS has applications ranging from signal processing in physics to earthquake prediction and cognitive neuroscience. In membrane science, Dr. Timashev pioneered the study of electropervaporation and switching conductivity in ion-exchange membranes, which has influenced the design of energy-dependent separation technologies. His work in physical chemistry includes groundbreaking theories in membrane transport, fluctuation metrology, and diffusion-controlled chemical kinetics. Dr. Timashev has also contributed significantly to quantum mechanics, where he proposed the concept of EM vacuum polarization to explain particle interactions and gravitation, challenging conventional notions of quantum reality. Moreover, his investigations in global environmental changes emphasize the thermodynamic interconnectedness of the biosphere with cosmic influences, introducing models that blend chemistry, ecology, and astrophysics. From nuclear reactions to fundamental quantum phenomena and ecological systems, Dr. Timashev’s interdisciplinary approach exemplifies a visionary scientific ethos driven by curiosity, rigor, and systemic understanding.

Research Skills

Dr. Timashev’s research skills reflect an extraordinary mastery of theoretical modeling, experimental design, and interdisciplinary integration. He has demonstrated expert competence in developing new scientific methodologies, such as Flicker-Noise Spectroscopy, which integrates statistical mechanics, time series analysis, and signal processing. In membrane science, his ability to correlate physicochemical principles with material properties has enabled the innovation of transport models that mimic biological systems. His theoretical capabilities are further evident in his quantum physics research, where he formulates phenomenological approaches to reinterpret particle behavior, vacuum interactions, and gravitational phenomena. Proficient in applying nonlinear thermodynamics to environmental systems, he also develops predictive models that account for solar-terrestrial interactions. Dr. Timashev is adept at crafting phenomenological theories supported by rigorous mathematical frameworks, as seen in his publications on chemical kinetics, nanosurface analysis, and stochastic processes. His use of advanced spectroscopy techniques, data interpretation methods, and experience with laboratory instrumentation further underscore his technical proficiency. Moreover, his extensive editorial experience across top scientific journals showcases his ability to critically evaluate cutting-edge research. Dr. Timashev’s skillset is marked by intellectual synthesis, mathematical rigor, and a lifelong dedication to advancing knowledge across complex scientific frontiers.

Awards and Honors

Serge F. Timashev’s distinguished contributions to science have been recognized through a series of prestigious awards and honors, reflecting both national and international acclaim. In 1995, he received the Prize of the Russian Federation Government in the field of Science and Technology, a testament to the practical impact and theoretical depth of his work. This was followed in 1996 by the award of the WD Wilson Visiting Fellowship from the Ernest Oppenheimer Memorial Trust in South Africa, highlighting his global scientific engagement and recognition. In 1998, Dr. Timashev was conferred the honorary title of Honoured Scientist of the Russian Federation, acknowledging his lifelong contributions to the advancement of physical chemistry and interdisciplinary research. Beyond formal honors, his status as a long-time editorial board member of several respected journals—including the Russian Journal of Physical Chemistry and the Russian Journal of Electrochemistry—demonstrates his leadership in shaping scholarly discourse. These accolades underscore his enduring influence on the scientific community and his reputation as a pioneering figure in multiple scientific domains. His awards not only affirm his past achievements but also serve as a reflection of his continued relevance in modern scientific inquiry.

Conclusion

The career of Serge F. Timashev stands as a remarkable testament to intellectual versatility, scientific integrity, and enduring curiosity. Across more than six decades of active research, he has made seminal contributions to diverse fields such as nuclear physics, membrane science, chemical kinetics, signal analysis, quantum mechanics, and environmental chemistry. His legacy is defined not only by his innovative theories—like Flicker-Noise Spectroscopy and Casimir polarization—but also by his unique ability to integrate insights across disciplinary boundaries. A prolific author of more than 300 scientific works and several foundational monographs, Dr. Timashev has deeply influenced both theoretical science and applied technologies. His work has been recognized with national awards and international fellowships, and he continues to contribute to the scientific community through mentorship, editorial roles, and ongoing research at MEPhI. In an era that increasingly values interdisciplinary collaboration and complex systems thinking, Dr. Timashev exemplifies the role of a modern scientist: deeply rooted in rigorous theory, yet unafraid to explore uncharted frontiers. His enduring contributions have not only advanced knowledge but also inspired a generation of scientists to pursue bold, integrative research.

Publications Top Notes

  1. Title: Erratum to: Non-Nucleon Metastable Excitations in Nuclear Matter and e– Catalysis As a Quark-Cumulative Mechanism for Initiating Low-Energy Nuclear Chemical Processes: Phenomenology
    Authors: Serge F. Timashev
    Year: 2024

  2. Title: Non-Nucleon Metastable Excitations in Nuclear Matter and e– Catalysis As a Quark-Cumulative Mechanism for Initiating Low-Energy Nuclear Chemical Processes: Phenomenology
    Author: Serge F. Timashev
    Year: 2024

  3. Title: Resolving the Paradox of the Dirac Equation through Phenomenology
    Author: Serge F. Timashev
    Year: 2024

  4. Title: FNS-Parameterization of Irregularities of Solar Activity Dynamic Variables
    Authors: S. A. Demin, V. A. Yunusov, S. F. Timashev, A. V. Minkin
    Year: 2023

  5. Title: Initiation of Artificial Radioactivity of Impurity Elements in a Lead Cathode under Conditions of a Glow Discharge
    Authors: S. F. Timashev, I. B. Savvatimova, S. S. Poteshin, N. I. Kargin, A. A. Sysoev
    Year: 2023

  6. Title: The Phenomenon of Artificial Radioactivity in Metal Cathodes under Glow Discharge Conditions
    Authors: S. F. Timashev, I. B. Savvatimova, S. S. Poteshin, S. M. Ryndya
    Year: 2022

  7. Title: Atom As an Open Dissipative System in the Basic Environment–the Electromagnetic Component of a Physical Vacuum: Phenomenology
    Author: Serge F. Timashev
    Year: 2022
    Citations: 1

  8. Title: On the Physical Nature of Quantum Mechanics and Gravitation: Phenomenology
    Author: Serge F. Timashev
    Year: 2022
    Citations: 4