Mr. Fima Ardianto Putra | Breakthrough Research Award

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Mr. Fima Ardianto Putra | Breakthrough Research Award

Fima Ardianto Putra | University of Indonesia | Indonesia

Fima Ardianto Putra is an Indonesian physicist whose research bridges the foundations of quantum mechanics, relativity, and cosmology. With a strong academic background in theoretical physics, he has consistently contributed to advancing the understanding of relativistic quantum phenomena, mass–action equivalence, and the fundamental nature of dark matter. His scientific works span across quantum physics, particle physics, astrophysics, and cosmology, reflecting a multidisciplinary approach aimed at unifying different aspects of modern physics. Through his publications in international journals and active engagement in conferences and workshops, Putra has emerged as a promising researcher from Indonesia with growing global recognition.

Author Profiles

Orcid

Scopus

Google Scholar

Education

Putra completed his Bachelor of Physics at the Faculty of Science and Technology, University of Jenderal Soedirman (UNSOED) in 2012, where his undergraduate thesis explored the invariance of the Heisenberg Uncertainty Principle within Lorentz transformations, applying de Broglie wave packet theory to relativistic quantum mechanics. His keen interest in bridging classical and quantum perspectives laid the foundation for his research career.He further pursued a Master of Physics at the Faculty of Mathematics and Natural Sciences, University of Indonesia (UI), graduating in 2016. His master’s thesis investigated compactification in higher-dimensional space-time, using scalar field Lagrangians with power-law kinetic terms. This work demonstrated his ability to tackle complex theoretical frameworks, combining elements of quantum field theory and general relativity. His academic journey reflects a continuous focus on fundamental theoretical problems and their implications for modern physics.

Research Interests

Fima Ardianto Putra’s research interests span a wide spectrum of interconnected domains in physics, with his work primarily rooted in theoretical and mathematical physics. He has focused extensively on the interplay between quantum mechanics and relativity, particularly investigating relativistic extensions of the Heisenberg Uncertainty Principle and their implications for particle behavior. His studies on mass–action equivalence further extend classical principles into relativistic and quantum domains, offering novel perspectives on symmetry breaking and field interactions. In particle physics and cosmology, he has proposed frameworks that link fundamental physical theories with large-scale cosmological phenomena, including efforts to unify dark matter models with Einstein’s field equations. His contributions in astrophysics explore relativistic quantization models, the structure of compact stars, and alternative approaches to gravitational phenomena. Beyond the boundaries of physics, he also engages with interdisciplinary studies such as philosophy of science, eschatology, and metaphysics, which enrich his holistic perspective on fundamental questions. Taken together, his research reflects a profound pursuit of unification—aiming to reconcile quantum physics, relativity, and cosmology within a single coherent theoretical framework.

Academic Positions and Activities

Throughout his academic career, Putra has actively engaged in numerous workshops, training programs, and scientific forums. He has participated in national and international workshops on nanotechnology, econophysics, scientific writing, and physics Olympiads. His involvement in these programs demonstrates a long-standing commitment to academic excellence and scientific collaboration.

In addition, Putra has taken part in broader intellectual and cultural activities, including international lectures and model conferences, which have helped expand his perspective beyond conventional disciplinary boundaries. His academic contributions also extend to mentoring and guiding young physicists in developing research and scientific writing skills.

Selected Publications

Curvature Quantization based on the Ehrenfest Paradox in the Bohr Atomic Model, Astroparticle Physics (Elsevier, 2024, Scopus Q1).

Mass–Action Equivalence with respect to Explicit Symmetry Breaking, Indian Journal of Physics (Springer, 2022, Scopus Q3).

On the Relativistic Heisenberg Uncertainty with respect to the Mass–Action Equivalence, Results in Physics (Elsevier, 2019, Scopus Q2).

De Broglie Wave Analysis of the Heisenberg Uncertainty Principle under the Lorentz Transformation, Jurnal Teras Fisika (2018).

Conclusion

Fima Ardianto Putra represents a new generation of Indonesian physicists who are actively contributing to global discussions on the foundations of physics. His work demonstrates a unique balance between rigorous mathematical formulation and ambitious attempts to unify diverse areas of physics, from the quantum scale to cosmological phenomena. By integrating concepts of relativity, quantum uncertainty, and mass–action equivalence, he provides original perspectives on long-standing scientific challenges such as the nature of dark matter and the unification of physical laws.As he continues to expand his publication record and collaborative network, Putra is positioned to further influence theoretical physics at both regional and international levels. His academic trajectory reflects intellectual curiosity, interdisciplinary engagement, and a commitment to advancing fundamental science. With his strong background in education, a growing body of scholarly work, and an expansive vision of physics, Fima Ardianto Putra stands out as an emerging voice in the pursuit of unifying principles of the universe.

Prof. Dr. Rabha Ibrahim | Quantum Theory Award

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Prof. Dr. Rabha Ibrahim | Quantum Theory Award

 

Dr. Rabha Wael Ibrahim | Istanbul Okan University | Turkey

Dr. Rabha Wael Ibrahim is a distinguished researcher in mathematical sciences and computational systems, currently serving as a Professor at Istanbul Okan University, Turkey. With a prolific academic and research career spanning complex systems, fractional calculus, quantum computing, and image processing, Dr. Ibrahim has emerged as a leading voice in the advancement of theoretical and applied mathematics.

Author Profile

Google Scholar

Education

Dr. Rabha Wael Ibrahim earned her Ph.D. in Complex Systems from the Centre for Modelling and Data Sciences at Universiti Kebangsaan Malaysia (UKM) in 2011. She later completed her postdoctoral research in Cloud Computing at the University of Malaya in 2016, focusing on emerging computational systems. To further enhance her data-driven research capabilities, she obtained a Google Data Analytics Certificate from Coursera (USA) in 2022.

Research Interests

Dr. Rabha Wael Ibrahim’s research expertise spans several interdisciplinary domains, with a strong foundation in both theoretical and applied mathematics. Her core areas of specialization include fractional calculus in both real and complex domains, mathematical modeling, and differential equations. She has also made significant contributions to geometric function theory, quantum computing, and the study of complex and cloud systems. Additionally, her work in image processing and pattern recognition bridges the gap between mathematics and computational intelligence, reflecting her versatile and innovative approach to scientific research.

Academic Positions

Dr. Rabha Wael Ibrahim currently serves as a Professor at Istanbul Okan University in Turkey (2024–Present) and holds concurrent research appointments at Alayen University (2023–Present) and Near East University in Cyprus (2022–2025). Her international academic career also includes research roles at the Lebanese American University in Lebanon (2022–2023) and Ton Duc Thang University in Vietnam, where she was a Senior Researcher from 2019 to 2021. Previously, she served as an Associate Professor at the Modern College of Business and Science in Oman (2017–2019) and as a Senior Lecturer and Researcher at the University of Malaya, Malaysia (2011–2016), contributing to a wide range of interdisciplinary research and teaching initiatives across the globe.

Selected Publications

Jamshed, W., Nisar, K.S., Ibrahim, R.W., Shahzad, F., & Eid, M.R. (2021). Thermal expansion optimization in solar aircraft using tangent hyperbolic hybrid nanofluid: A solar thermal application. Journal of Materials Research and Technology, 14, 985–1006. [Citations: 191]

Hasan, A.M., Al-Jawad, M.M., Jalab, H.A., Shaiba, H., Ibrahim, R.W., et al. (2020). Classification of COVID-19, pneumonia, and healthy lungs in CT scans using Q-deformed entropy and deep learning features. Entropy, 22(5), 517. [Citations: 179]

Ibrahim, R.W. (2012). Generalized Ulam–Hyers stability for fractional differential equations. International Journal of Mathematics, 23(05), 1250056. [Citations: 167]

Ibrahim, R.W., & Momani, S. (2007). On the existence and uniqueness of solutions of a class of fractional differential equations. Journal of Mathematical Analysis and Applications, 334(1), 1–10. [Citations: 166]

Jamshed, W., Nisar, K.S., Ibrahim, R.W., Mukhtar, T., Vijayakumar, V., & Ahmad, F. (2021). Computational framework of Cattaneo-Christov heat flux effects on engine oil-based Williamson hybrid nanofluids: A thermal case study. Case Studies in Thermal Engineering, 26, 101179. [Citations: 155]

Conclusion

Dr. Rabha Wael Ibrahim is a globally recognized researcher who has significantly contributed to the fields of applied mathematics, fractional calculus, and computational sciences. Her interdisciplinary approach, publication impact, and mentorship have shaped mathematical research and inspired new generations of scientists across Asia, Europe, and the Middle East.

Prof. Dr. Rami Ahmad El-Nabulsi | Physics Research Impact Award

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Prof. Dr. Rami Ahmad El-Nabulsi | Physics Research Impact Award

Dr. Rami Ahmad El-Nabulsi |  University of South Bohemia, Czech Republic

Dr. Rami Ahmad El-Nabulsi is a globally renowned theoretical physicist and applied mathematician, currently serving as a Senior Research Fellow at the Center of Excellence in Quantum Technology, Chiang Mai University, Thailand; the Department of Optical Networks, CESNET, Prague; and the University of South Bohemia, Czech Republic. With over 390 peer-reviewed journal publications, 6,700+ citations, and an h-index of 43, Dr. El-Nabulsi has established himself as a pioneer in nonlinear dynamics, quantum fractals, and interdisciplinary modeling in physical and engineering systems.

Author Profile

Google Scholar

Education

Dr. Rami Ahmad El-Nabulsi earned his Ph.D. in Mathematical Physics and Modeling from Aix-Marseille University (AMU), France, where he developed advanced analytical frameworks for nonlinear systems. He also holds a Diploma of Advanced Studies (DEA) in Plasma Physics from the same institution, reflecting his deep expertise in high-energy and space plasma phenomena. Prior to that, he completed both his Master’s and Bachelor’s degrees in Physics, building a solid foundation in classical and modern physics that underpins his interdisciplinary research today.

Professional Experience

Dr. El-Nabulsi holds multiple international research affiliations. At Chiang Mai University, he contributes to cutting-edge studies in quantum atom optics and fractal modeling of quantum phenomena. At CESNET and the University of South Bohemia, his research extends into computational modeling, nonlinear systems, and quantum technologies for networking and information systems.

He has published extensively on advanced topics such as nonlinear Hamiltonian systems, quantum chaos, fractal acoustics, and fractional calculus applied to astrophysical and material science problems. His theoretical research is complemented by strong computational skills and interdisciplinary collaborations across nuclear, space, and condensed matter physics.

Research Skills

Dr. El-Nabulsi’s expertise spans a wide range of advanced topics in physics and applied mathematics, including quantum and fractal dynamics, nonlinear differential equations, plasma magnetohydrodynamics (MHD), space physics, nuclear engineering, and superconductivity. He is particularly well-versed in fractional calculus and mathematical modeling, which he applies to develop novel theoretical frameworks for understanding complex systems. Proficient in a variety of computational tools such as MATLAB, Mathematica, Python, Fortran, C/C++, LaTeX, and Octave, Dr. El-Nabulsi brings a computational edge to his theoretical work. His unique contribution lies in constructing new mathematical models and physical theories that interpret phenomena across multiple scales—from subatomic interactions to cosmological structures—within fractal and fractional dimensions.

Selected Publications

Chaotic dynamics and fractal analysis of nonstandard Hamiltonian systems, Chaos, Solitons and Fractals, 2025

A model for ice sheets and glaciers in fractal dimensions, Polar Science, 2025

Structural Analysis of Phononic Crystals in Fractal Dimensions, Journal of Elasticity, 2025

Modeling Stochastic Langevin Dynamics in Fractal Dimensions, Physica A, 2025

A Fractional Model for Soliton in Low-Earth Orbital Plasma, IEEE Transactions on Plasma Science, 2025

Qualitative Financial Modelling in Fractal Dimensions, Financial Innovation, 2025

Time-Dependent Heating of the Solar Corona in Fractal Dimensions, Advances in Space Research, 2024

Higher-order Quantum Waves in Fractal Dimensions, Canadian Journal of Physics, 2024

Physics Research Impact

Dr. Rami Ahmad El-Nabulsi’s research has profoundly impacted the field of theoretical and applied physics, offering groundbreaking insights into the behavior of complex systems across quantum, classical, and cosmic scales. With a solid foundation in mathematical physics and nonlinear dynamics, his work uniquely blends fractal geometry, fractional calculus, and nonlocal variational principles to model physical phenomena that conventional approaches struggle to explain.

His contributions have advanced the theoretical understanding of quantum chaos, Hamiltonian mechanics, and nonlinear wave propagation in fractal dimensions. Dr. El-Nabulsi’s innovative approaches have been applied to diverse fields including plasma magnetohydrodynamics (MHD), quantum electronics, astrophysics, superconductivity, and nuclear fusion physics. Notably, his models on magnetic chaotic field lines in fusion reactors, solar corona heating, and quantum waves in nonlocal geometries offer new perspectives for tackling real-world engineering and astrophysical problems.

Research Interests

Dr. El-Nabulsi’s research interests encompass a diverse and interdisciplinary array of topics, including quantum mechanics in fractal dimensions, geometrical and nonlinear dynamics, and chaos theory. He is deeply engaged in exploring fundamental theories such as general relativity and quantum field theory, while also contributing to applied domains like plasma physics, superconductivity, and mathematical modeling. His work extends to emerging fields such as fractal thermodynamics, multiscale physics, and biophysics, with additional focus on reactor and nuclear systems as well as acoustic metamaterials. This broad scope reflects his commitment to advancing theoretical understanding and practical applications across multiple branches of modern physics.

Conclusion

Dr. Rami Ahmad El-Nabulsi is a multidisciplinary scholar who continues to push the boundaries of theoretical physics and applied mathematics. His passion for scientific exploration, teaching, and global collaboration contributes profoundly to understanding the complex nonlinear structures that govern our universe — from the quantum to the cosmic scale.

Mr.Rana Shahid Mahmood | Innovative Research Award

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Mr.Rana Shahid Mahmood | Innovative Research Award

Nanjing University of Aeronautics and Astronautics, China

Authour Profile

Orchid 

🎓 Early Academic Pursuits

Rana Shahid Mahmood’s academic journey is rooted in a strong foundation in physics and material sciences. Beginning with a Bachelor’s degree in Double Mathematics and Physics from Islamia University Bahawalpur, he pursued higher education with unwavering dedication. He earned his Master’s in Physics from the University of Agriculture Faisalabad, where he completed a research thesis on magnesium-doped zinc oxide nanoparticles synthesized via ball milling—an early indication of his passion for material synthesis and nanotechnology. Currently, as a PhD researcher at the Nanjing University of Aeronautics and Astronautics (NUAA), China, he is delving into the forefront of renewable energy technology through his specialization in perovskite solar cells (PSCs), focusing on efficiency, cost-effectiveness, and stability.

💼 Professional Endeavors

Professionally, Rana Shahid has steadily progressed from academic support roles to high-level research. His teaching experience as a Visiting Lecturer at the University of Okara enriched his pedagogical abilities and deepened his engagement with the academic community. Additionally, his tenure as a Research Assistant on a project funded by the Punjab Higher Education Commission provided him with valuable hands-on experience in experimental physics. His current work as a PhD researcher involves not only the fabrication and testing of solar cells but also strategic material design through additive engineering—a critical element in addressing global energy sustainability challenges.

🔬 Contributions and Research Focus

Rana’s contributions to solar cell research are particularly notable in the context of additive engineering. In 2025, he co-authored a significant publication in Elsevier detailing the use of bifunctional lithium difluoro (oxalato) borate (Li-DFOB) in perovskite films. This innovative additive helped achieve a power conversion efficiency (PCE) of 24.07% while maintaining 98.7% of its original performance under humidity—crucial for real-world deployment of PSCs. His research focuses on improving device stability and performance through cutting-edge characterization techniques such as XRD, SEM, UV-Vis, PL, and J-V measurements. He has consistently demonstrated expertise in thin-film deposition, especially spin coating, and the thermal evaporation of electrodes, all integral to advancing perovskite photovoltaic technology.

🏅 Accolades and Recognition

While formal awards may yet be forthcoming, Rana’s scholarly engagement is reflected in his active participation in over a dozen conferences and workshops related to physics, material science, and nanotechnology. Notable events include the International Conference on Material Science & Nanotechnology (MSNANO20) and the 3rd National Symposium on Laser-Matter Interaction. His recognition as a thought leader is evident in his collaborations with professors, contributions to scientific workshops, and leadership roles, such as his current position as Vice President of the Guitar Club at NUAA—highlighting his capacity to lead both in research and community activities.

🌍 Impact and Influence

Rana Shahid’s research directly contributes to one of the most pressing global challenges: transitioning to clean and sustainable energy. His focus on PSCs is particularly impactful given the global urgency to commercialize efficient, low-cost solar technologies. The application of his work in real-world conditions—such as enhancing humidity resistance—is especially relevant to countries with diverse climates, including his home country, Pakistan. Moreover, his academic outreach and mentoring roles are helping inspire the next generation of physicists and materials scientists.

🌱 Legacy and Future Contributions

Looking forward, Rana has the potential to emerge as a thought leader in solar energy materials. His deep technical skillset, combined with a collaborative and cross-disciplinary approach, positions him to lead large-scale renewable energy projects or academic-industrial partnerships. He is also likely to contribute to policy or commercialization efforts as PSC technologies begin to reach mass production. With more international publications, patents, and perhaps a postdoctoral tenure in a cutting-edge lab, his legacy will be marked by both scholarly excellence and practical impact.

🏆 Conclusion: A Worthy Contender for the Best Researcher Award

In summary, Rana Shahid Mahmood is a deserving candidate for the Best Researcher Award. His academic rigor, innovative contributions to perovskite solar cell development, and continuous involvement in interdisciplinary collaboration reflect the qualities of a high-impact researcher. While he may benefit from deeper international collaboration and industry-aligned research, his current trajectory is steeped in excellence. His work not only advances scientific understanding but also addresses real-world sustainability goals—making him an asset to both academia and the global clean energy movement. 🌟

📖Notable Publications

 Crystallization regulation and ion migration suppression enabled by bifunctional lithium difluoro (oxalato) borate additive for stable perovskite solar cells

Authors: Rana Shahid Mahmood, Weicun Chu, Riming Nie
Journal: Organic Electronics
Year: 2025