Seyed Mohammad Ali Radmanesh | Interactions and fields | Best Researcher Award

Published on by High Energy Physics

Prof. Seyed Mohammad Ali Radmanesh | Interactions and fields | Best Researcher Award

Professor of Physics at University of New Orleans, United States

Dr. Seyed Mohammad Ali Radmanesh is a distinguished application scientist and experimental physicist with over 5 years of hands-on research experience in cryotronics, high-field magneto-transport measurements, and quantum materials. With a robust interdisciplinary background in materials science, applied physics, and engineering, Dr. Radmanesh has contributed to several high-impact studies, including publications in Nature-branded journals. He is recognized for his deep technical knowledge, data analysis capabilities, and experimental instrumentation expertise in low-temperature physics, making him a valuable contributor to cutting-edge material research.

šŸ‘Øā€šŸŽ“Profile

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šŸŽ“ Early Academic Pursuits

Dr. Radmaneshā€™s academic journey began with a B.Sc. in Materials Science and Engineering from Chamran University of Ahvaz, where he explored mechanical properties and heat treatment of metals. He deepened his expertise through an M.Sc. in Materials Science and Engineering at the University of Tehran, focusing on magnetic nanocomposites. His passion for condensed matter physics drove him to pursue an M.Sc. and Ph.D. in Applied Physics and Engineering at the University of New Orleans, where he became proficient in quantum materials research, developing strong foundations in low-temperature instrumentation and magneto-transport techniques.

šŸ§Ŗ Professional Endeavors

Professionally, Dr. Radmanesh has served as a researcher, application scientist, and visiting scholar at institutions like the National High Magnetic Field Laboratory (NHMFL). He led and collaborated on experiments investigating Dirac and Weyl semimetals, utilizing state-of-the-art systems such as Dilution Refrigerators, PPMS, SQUID, and VSM Cryostats. His role has involved device fabrication, data acquisition, and LabVIEW automation. He has also contributed to projects funded by NSF EPSCoR and has worked with various global experts on topics like topological superconductivity and London penetration depth, enhancing the experimental understanding of quantum electronic states.

šŸ“š Contributions and Research Focus

Dr. Radmanesh’s research has focused extensively on quantum materials, particularly topological insulators, Dirac/Weyl semimetals, and unconventional superconductors. He has played a central role in uncovering nontrivial topological states, Ļ€ Berry phases, and electron coherence mechanisms under extreme cryogenic and magnetic conditions. His Ph.D. work on correlated materials and collaborative studies on half-Heusler compounds have significantly advanced the understanding of exotic superconducting states. Through his expertise in low-temperature transport measurements, Dr. Radmanesh continues to shape the landscape of experimental condensed matter physics with highly cited contributions.

šŸŒ Impact and Influence

Dr. Radmanesh’s work has had a global scientific impact, with publications in prestigious journals such as Nature Materials, Nature Communications, and Nature Physics. His findings on Dirac fermions, zero Landau levels, and spin-orbit coupling have informed theoretical and applied research in quantum computing, magnetoelectronics, and next-gen materials development. He has collaborated with leading research labs and scientists in the U.S. and internationally. His work continues to influence experimental techniques in cryotronics and quantum device engineering, while mentoring younger scientists and fostering interdisciplinary collaboration in academia and industry.

šŸ“– Academic Citations

Dr. Radmanesh has authored or co-authored 11 peer-reviewed papers, with 5 published in Nature-branded journals and others in Physical Review B, Scientific Reports, and Journal of Magnetism and Magnetic Materials. His research has been cited in high-impact studies, reflecting the relevance and scientific rigor of his contributions. Particularly, papers on topological semimetals (SrMnSbā‚‚, TaP) and superconductivity in half-Heuslers have received considerable academic attention. His 2020 article on nontrivial paired states remains an essential reference for researchers exploring novel quantum phases and low-dimensional superconductors.

šŸ› ļø Research Skills

Dr. Radmanesh possesses cutting-edge technical skills in cryogenic and magnetic instrumentation, including operation and troubleshooting of Dilution Refrigerators, PPMS, VSM, EPR, and LabVIEW-controlled systems. He is experienced in TDO-based London penetration depth measurements, Hall and resistivity measurements, and device prototyping using LPKF circuit board plotters. His command over data analysis tools (Origin, Maple, MATLAB) and software for experiment control has made him a reliable lead for complex experimental setups. He also applies vacuum systems and magnetic resonance tools to evaluate electronic, magnetic, and topological features in novel materials.

šŸ‘Øā€šŸ« Teaching ExperienceĀ 

While his primary focus has been research, Dr. Radmanesh has supported academic environments through graduate-level mentoring, poster presentations, and technical workshops. He has helped undergraduate and master’s students with experimental setup, data interpretation, and instrument handling. During his time at the University of Tehran, he worked as a Computer Center expert, assisting peers with network systems and academic computing. Additionally, he has been an active presenter at APS and IEEE conferences, where he disseminated knowledge, discussed methodology, and contributed to collaborative learning, establishing himself as a knowledge facilitator in the scientific community.

šŸ† Awards and Honors

Dr. Radmanesh has received multiple NSF EPSCoR Research Infrastructure Improvement (RII) Awards, recognizing his contribution to high-impact scientific projects. He has consistently earned top spots in poster competitions and has been inducted into Omicron Delta Kappa, the National Leadership Honor Society. A member of the IEEE and a reviewer for Materials Letters, he actively contributes to the scientific peer review process. These honors reflect his academic excellence, leadership, and professional integrity, distinguishing him as a prominent early-career researcher with a well-rounded scholarly and service profile.

šŸŒŸ Legacy and Future Contributions

Dr. Radmanesh is poised to become a leading innovator in quantum materials research and experimental cryogenic science. His future goals include developing next-generation instrumentation for quantum state detection, mentoring new researchers, and contributing to quantum device engineering applicable in computing and energy. His legacy will be built on combining deep theoretical insight with technical precision, advancing both academic understanding and practical application of novel materials. With plans to continue collaborative research and lead high-impact projects, Dr. Radmanesh is set to make lasting contributions that will shape the future of materials science and applied physics.

Publications Top Notes

Superconductivity in Layered Dichalcogenide Ptā‚€.ā‚€ā‚‚TaSeā‚‚ Single Crystals

  • Authors: S.M.A. Radmanesh, R. Ghanbari, A. Diaconu
    Journal: Solid State Communications
    Year: 2025

The Synthesis and Characterization of Hard-Soft Mnā‚…ā‚‚Alā‚„ā‚….ā‚‡Cā‚‚.ā‚ƒā€“Ī±-Fe Nanocomposite Magnets

  • Authors: S.N. Attyabi, S.M.A. Radmanesh, S.A.S. Ebrahimi, H. Dehghan
    Journal: Journal of Superconductivity and Novel Magnetism, Vol. 35 (5), pp. 1229ā€“1240
    Year: 2022

Stress-Induced Grain Refinement in Hard Magnetic Mnā‚…ā‚‚Alā‚„ā‚….ā‚‡Cā‚‚.ā‚ƒ Fabricated Using the Ball-Milling Method

  • Authors: S.N. Attyabi, S.M.A. Radmanesh, S.A. Seyyed Ebrahimi, H. Dehghan, …
    Journal: Materials, Vol. 15 (22), Article 7919
    Year: 2022

Effect of the Heat Treatment on the Electrical Resistivity and Magnetization Reversal Behavior of MnAl Alloys

  • Authors: M. Shakouri, S.M.A. Radmanesh, S.A.S. Ebrahimi, H. Dehghan
    Journal: Materials Science and Engineering: B, Vol. 274, Article 115486
    Year: 2021

Nontrivial Paired States in Novel Topological Superconductors

  • Authors: S.M.A. Radmanesh, S.A.S. Ebrahimi, A. Diaconu, J.Y. Liu
    Journal: Journal of Alloys and Compounds, Vol. 848, Article 156498
    Year: 2020

 

 

 

Paolo Renati | Interactions and fields | Best Researcher Award

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Dr. Paolo Renati | Interactions and fields | Best Researcher Award

Researcher and Teacher at World Water Community | Netherlands

Paolo Renati is a multidisciplinary scientist with a profound focus on quantum electrodynamics (QED), coherence phenomena, and water physics. With a career spanning over a decade, he has established himself as a researcher, lecturer, author, and consultant across Europe and Asia. His work synthesizes complex systems theory, biophysics, information medicine, and philosophy of science. Dr. Renati’s academic and scientific journey includes advanced degrees in materials science and complex systems, collaborations with renowned research institutions like Kobe University and the Laszlo Institute, and groundbreaking publications bridging physics, biology, and epistemology.

šŸ‘Øā€šŸŽ“Profile

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šŸŽ“ Early Academic Pursuits

Paolo Renatiā€™s academic journey began with a Bachelorā€™s and Masterā€™s degree in Materials Science and Engineering at the University of Genoa, both completed cum laude, indicating academic excellence. He further pursued a II Level Master in Nano and Micro Technologies at ESAS, affiliated with the Superior University Studies of Pavia. This strong foundation in materials and physical sciences laid the groundwork for his Ph.D. in Complex Systems at the University of Catania (2018ā€“2021), where he explored QED coherence in living and condensed matter, fusing quantum physics with life sciences and socio-economic systems in a highly interdisciplinary framework.

šŸ’¼ Professional EndeavorsĀ 

Dr. Renatiā€™s career includes roles as R&D Director, scientific consultant, and research fellow in international institutions such as Kobe University, The Laszlo Institute, and World Water Community. He has collaborated with Atena s.r.l., focused on quantum technologies in water treatment, and served as an independent researcher in quantum field theory, biophysics, and coherent systems. His work integrates high-level scientific research with practical applications in medicine, agriculture, and sustainability. As part of global interdisciplinary projects, Renati demonstrates a rare blend of theoretical acumen and applied innovation in emerging scientific paradigms.

šŸ”¬ Contributions and Research Focus

Paolo Renatiā€™s research centers on QED coherence, water structure, and biofield phenomena. His influential publications explore hydrogen bonding from a quantum field theory perspective, coherence in highly diluted solutions, and quantum biology foundations. Renati merges physics, biology, and epistemology, challenging classical scientific methods by advocating for information paradigms and holographic thinking. He has significantly contributed to Aquaphotomics, developing tools to understand biological water’s spectral dynamics. Through interdisciplinary collaborations, Renati provides new models for biological coherence, perception, and emergent complexity in living systems, pushing the boundaries of traditional scientific frameworks.

šŸŒ Impact and Influence

Renatiā€™s work is influencing new paradigms in science, especially in information-based medicine, quantum water research, and epistemology. His concepts of bio-coherence and field-based interactions are reshaping perspectives in holistic medicine, quantum biology, and biophysics. He is frequently invited to speak at international conferences, and his workshops are sought-after by interdisciplinary scholars. His contributions to platforms such as the World Water Community, the Laszlo Institute, and GIRI highlight his role as a thought leader bridging scientific, philosophical, and spiritual domains. His impact resonates through both academic discourse and applied research, engaging a global scientific audience.

šŸ“š Academic Cites

Dr. Renatiā€™s academic legacy includes numerous peer-reviewed publications across high-impact journals such as IJMS, Journal of Molecular Liquids, and Physical Science & Biophysics Journal. His work is increasingly cited in fields such as coherence theory, quantum biology, and electromagnetic medicine. Landmark publications include ā€œWhat is the Hydrogen Bond?ā€ and his comprehensive Ph.D. thesis on QED coherence, published as a monograph. Renati has co-authored with internationally respected scientists like Pierre Madl, and his research is referenced in both experimental studies and philosophical critiques. His academic citations reflect a growing recognition of his transdisciplinary approach and conceptual innovation.

šŸ§Ŗ Research Skills

Renati possesses expert-level skills in quantum field theory, spectroscopy (NIR), thermodynamics, biophysics, and complex systems modeling. He excels in experimental data analysis, coherence theory, and advanced signal processing in biological and aqueous systems. His laboratory experience spans from thermal coatings and materials science to quantum electrodynamics in living systems. With a keen grasp of interdisciplinary methodology, he bridges theoretical research with empirical evidence. His work integrates systems biology, cybernetics, and quantum measurement theory, enabling him to develop innovative models for studying living matter, perception, and information transfer across various scientific contexts.

šŸ‘Øā€šŸ« Teaching Experience

Paolo Renati is an experienced educator and workshop facilitator, having taught Modern Physics at Dulcamara Homeopathic School, led sessions on Analogical Physics at Edelweiss Centre, and conducted international seminars on Aquaphotomics and QED. Heā€™s a regular contributor to academic conferences as an invited speaker and trainer, sharing his insights on coherent systems, consciousness, and quantum biology. His teaching is characterized by clarity, interdisciplinary fluency, and philosophical depth, making him a sought-after mentor for students and professionals alike. Renati fosters holistic understanding by combining rigorous science with epistemological and experiential learning, inspiring the next generation of researchers.

šŸ† Awards and HonorsĀ 

Renati has earned numerous accolades, including the 1st Prize Poster at The Water Conference 2019 for his groundbreaking research on coherent states in water. He is regularly invited to keynote international scientific forums, such as Aquaphotomics Kobe 2025 and GIRI 2024, reflecting his status as a leading voice in quantum biophysics. His Ph.D. thesis was widely praised and later published as a full-length academic book. He has also received recognition from organizations like the Laszlo Institute and ƌNIN Holographic Evolving Centre for his contributions to consciousness research and new paradigms in science.

šŸ§­ Legacy and Future ContributionsĀ 

Paolo Renati is actively shaping the emergent scientific frontier, fusing quantum theory, biology, and epistemology to craft a holistic model of reality. His work promises to influence the development of coherence-based diagnostics, information-driven medicine, and integrated life sciences education. As a mentor, speaker, and innovator, he is nurturing a global network of researchers open to rethinking foundational scientific assumptions. His legacy lies in bridging hard science with intuitive knowledge, enabling a future where science, consciousness, and sustainability co-evolve. Renatiā€™s ongoing commitment to transdisciplinary exploration makes him a key architect of the science of tomorrow.

Top Noted Publications

  • The Possible Role of Coherence in Highly Diluted and Succussed Aqueous Solutions
    Authors: Paolo Renati
    Journal: International Journal of High Dilution Research
    Year: 2024

  • What Is the ā€œHydrogen Bondā€? A QFT-QED Perspective
    Authors: Paolo Renati, Pierre Madl
    Journal: International Journal of Molecular Sciences
    Year: 2024

  • Quantum Electrodynamics Coherence and Hormesis: Foundations of Quantum Biology
    Authors: Pierre Madl, Paolo Renati
    Journal: International Journal of Molecular Sciences
    Year: 2023

  • Coherence, Compartmentation and Bioenergetics in Living Matter
    Authors: Paolo Renati
    Journal: Physical Science & Biophysics Journal
    Year: 2023

  • Relationships and Causation in Living Matter: Reframing Some Methods in Life Sciences?
    Authors: Paolo Renati
    Journal: Physical Science & Biophysics Journal
    Year: 2022