Dr. Saranya Indhumathi G | Engineering | Editorial Board Member

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Dr. Saranya Indhumathi G | Engineering | Editorial Board Member

Assistant Professor | Rajalakshmi Engineering College | India

Dr. Saranya G is a distinguished researcher whose scholarly contributions in the field of Engineering reflect excellence, innovation, and academic depth. With extensive experience in Engineering research and development, Dr. Saranya has made substantial progress in advancing applied and theoretical aspects of modern Engineering systems. Her work demonstrates a profound understanding of Engineering methodologies, design, and implementation, consistently aligning with global research standards. Through dedication to quality research, Dr. Saranya has contributed to several impactful studies in Engineering, which have inspired both academic and industrial applications. Her research output is marked by a strong focus on interdisciplinary collaboration, bridging various domains of Engineering to achieve innovative and sustainable solutions. Dr. Saranya’s publications in reputed journals highlight her commitment to the continuous evolution of Engineering practices and her passion for advancing knowledge in the global Engineering community. Her professional excellence has strengthened the integration of computational techniques, material innovations, and system optimization within Engineering research frameworks. Dr. Saranya’s collaborations with leading scholars and institutions have further enhanced the visibility and applicability of her Engineering research. She remains actively engaged in advancing experimental and analytical techniques that contribute to the future of Engineering innovation. Her body of work stands as a testament to the transformative potential of research-driven Engineering advancements and their impact on societal progress and technological development. Her scholarly excellence continues to enrich the domain of Engineering, promoting a culture of intellectual rigor and innovation. Google Scholar profile of 167 Citations, 8 h-index, and 7 i10-index.

Profile: Google Scholar

Featured Publications

1. Benazer, S. S., Dawood, M. S., Ramanathan, S. K., & Saranya, G. (2021). Efficient model for IoT based railway crack detection system. Materials Today: Proceedings, 45, 2789–2792.

2. Ambeth Kumar, V. D., Saranya, G., Elangovan, D., & Chiranjeevi, V. R. (2018). IOT-based smart museum using wearable device. International Conference on Innovative Computing and Communications, 27.

3. Saranya, G., Sivamangai, N. M., Ajayan, J., Sreejith, S., & Nithya, S. (2024). Semi-classical physics based model in AlGaN/BGaN based ultraviolet LED with p-AlGaN layer sandwiched around electron-blocking layer for droop-free efficiency. Micro and Nanostructures, 188, 207772.

4. Naveenkumar, R., Sivamangai, N. M., Napolean, A., Puviarasu, A., & Saranya, G. (2022). Preventive measure of SAT attack by integrating anti-SAT on locked circuit for improving hardware security. 2022 7th International Conference on Communication and Electronics Systems (ICCES), 14.

5. Jayanthi, P., Saranya, G., Duraimurugan, J., Sengodan, P., & Ravichandran, S. (2023). Construction of SnO₂/MWCNT nanocomposites as electrode materials for supercapacitor applications. Journal of Sol-Gel Science and Technology, 108(1), 112–119.

Prof. Dr. Sasan Baleghizadeh | Social Sciences | Best Researcher Award

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Prof. Dr. Sasan Baleghizadeh | Social Sciences | Best Researcher Award

Corresponding Author | Shahid Beheshti University | Iran

Prof. Dr. Sasan Baleghizadeh stands as a distinguished scholar in the field of Social Sciences, widely recognized for his impactful contributions to language education, research, and academic development. His work reflects deep engagement with Social Sciences, demonstrating a sustained commitment to advancing knowledge through extensive publications, editorial leadership, and meaningful collaborations. Prof. Dr. Sasan Baleghizadeh has authored numerous journal articles, book chapters, and academic books, showcasing his influential presence in Social Sciences research communities and reinforcing his role as a thought leader. His scholarly output consistently reflects strong analytical perspectives, innovative methodologies, and a forward-looking vision aligned with contemporary directions in Social Sciences. Throughout his career, Prof. Dr. Sasan Baleghizadeh has collaborated with researchers and educators across institutions, enhancing interdisciplinary dialogues and strengthening Social Sciences frameworks in applied linguistics and educational studies. His contributions span curriculum development, material design, teacher education, and empirical inquiry, all of which highlight his strong grounding in Social Sciences theory and practice. He has served on editorial boards of multiple journals, contributing to the advancement of Social Sciences scholarship and supporting high-quality academic discourse globally. Prof. Dr. Sasan Baleghizadeh’s research influence extends beyond academia, demonstrating societal impact through his work on language pedagogy, assessment, teacher training, and cross-cultural learning environments. His leadership roles in conferences, workshops, and academic committees further reinforce his central presence in Social Sciences, where he consistently advocates for innovative practices, reflective teaching, and evidence-based decision-making. Through his extensive involvement in research projects and supervision of advanced academic theses, he continues to shape emerging scholars, instilling a strong Social Sciences mindset and strengthening the intellectual foundation of the field. His vast body of work, marked by dedication and scholarly excellence, reflects a commitment to progressing Social Sciences research, contributing valuable insights, and promoting academic integrity and development at institutional, national, and international levels. Google Scholar profile of 3151 Citations, 32 h-index, 63 i10-index.

Profile: Google Scholar

Featured Publications

1. Baleghizadeh, S., & Oladrostam, E. (2010). The effect of mobile assisted language learning (MALL) on grammatical accuracy of EFL students. Mextesol Journal, 34(2), 1–10.

2. Baleghizadeh, S., & Gordani, Y. (2012). Motivation and quality of work life among secondary school EFL teachers. Australian Journal of Teacher Education (Online), 37(7), 30–42.

3. Baleghizadeh, S., & Masoun, A. (2013). The effect of self-assessment on EFL learners’ self-efficacy. TESL Canada Journal, 42–42.

4. Beloor, V., Nanjundeswaraswamy, T. S., & Swamy, D. R. (2017). Employee commitment and quality of work life – A literature review. The International Journal of Indian Psychology, 4(2), 175–188.

5. Baleghizadeh, S., & Ashoori, A. (2011). The impact of two instructional techniques on EFL learners’ vocabulary knowledge: Flash cards versus word lists. Mextesol Journal, 35(2), 1–9.

Dr. Meri Algarni | Condensed Matter Physics | Best Researcher Award

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Dr. Meri Algarni | Condensed Matter Physics | Best Researcher Award

Associate Professor | Al-Baha University | Saudi Arabia

Dr. Meri Algarni is an accomplished researcher in Condensed Matter Physics, recognized for her innovative work on magnetic and topological phenomena in low-dimensional materials. Her contributions have significantly advanced the understanding of electronic and magnetic properties in van der Waals heterostructures, bridging theoretical insights with experimental discoveries in Condensed Matter Physics. With a strong research background in Condensed Matter Physics, she has explored carrier-mediated ferromagnetism, gate-controlled phase transitions, and quantum effects that underpin next-generation spintronic and energy-efficient devices. Dr. Algarni’s expertise in Condensed Matter Physics encompasses nanoscale characterization techniques such as SEM, AFM, and PPMS, enabling her to investigate magnetic and structural behaviors at the atomic scale. Her research in Condensed Matter Physics has been published in high-impact journals, including Physical Review Letters, Nature Communications, and ACS Nano Letters, reflecting global recognition of her scientific contributions. Through her work on tunable artificial topological Hall effects and gate-tuned magnetic transitions, she continues to make influential contributions to Condensed Matter Physics, advancing the development of future quantum materials and low-energy electronic technologies. In addition to her research achievements, Dr. Algarni has actively participated in international conferences and collaborations, strengthening global scientific networks within Condensed Matter Physics. Her dedication to advancing Condensed Matter Physics extends to mentoring and teaching, inspiring emerging scientists to engage in experimental and theoretical studies within the field. Her scholarly impact in Condensed Matter Physics demonstrates a rare combination of technical mastery, analytical rigor, and interdisciplinary insight that drives innovation in material science and nanotechnology. Her Google Scholar profile records 530 citations, an h-index of 11, and an i10-index of 12, underscoring her substantial and growing influence in Condensed Matter Physics worldwide.

Profiles: Google Scholar | ORCID

Featured Publications

1. Zheng, G., Xie, W. Q., Albarakati, S., Algarni, M., Tan, C., Wang, Y., Peng, J., … (2020). Gate-tuned interlayer coupling in van der Waals ferromagnet nanoflakes. Physical Review Letters, 125(4), 047202.

2. Tan, C., Xie, W. Q., Zheng, G., Aloufi, N., Albarakati, S., Algarni, M., Li, J., … (2021). Gate-controlled magnetic phase transition in a van der Waals magnet Fe₅GeTe₂. Nano Letters, 21(13), 5599–5605.

3. Albarakati, S., Xie, W. Q., Tan, C., Zheng, G., Algarni, M., Li, J., Partridge, J., … (2022). Electric control of exchange bias effect in FePS₃–Fe₅GeTe₂ van der Waals heterostructures. Nano Letters, 22(15), 6166–6172.

4. Zheng, G., Wang, M., Zhu, X., Tan, C., Wang, J., Albarakati, S., Aloufi, N., … (2021). Tailoring Dzyaloshinskii–Moriya interaction in a transition metal dichalcogenide by dual-intercalation. Nature Communications, 12(1), 3639.

5. Zheng, G., Tan, C., Chen, Z., Wang, M., Zhu, X., Albarakati, S., Algarni, M., … (2023). Electrically controlled superconductor-to-failed insulator transition and giant anomalous Hall effect in kagome metal CsV₃Sb₅ nanoflakes. Nature Communications, 14(1), 678.

Prof. Dr. Zbigniew Haba | Quantum Field Theory | Best Researcher Award

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Prof. Dr. Zbigniew Haba | Quantum Field Theory | Best Researcher Award

Professor | University of Wroclaw | Poland

Prof. Dr. Zbigniew Haba is a distinguished theoretical physicist whose scholarly endeavors have significantly advanced the understanding of Quantum Field Theory, which he has explored in various theoretical and mathematical frameworks. Throughout his academic and research career, Quantum Field Theory has remained the cornerstone of his investigations, particularly in relation to quantum gravity, statistical field theory, and stochastic processes. He earned his Ph.D. and later served as a visiting professor at Bielefeld University, Bochum University, the Max Planck Institute in Munich, and Lisbon University, where his expertise in Quantum Field Theory contributed to both research and mentorship. His scientific output, reflected in his Google Scholar profile with 1007 citations, an h-index of 16, and an i10-index of 31, demonstrates his influence in the global research community. Prof. Dr. Haba’s profound understanding of Quantum Field Theory extends to its applications in cosmology, string theory, and renormalization techniques. His research interests include advanced formulations of Quantum Field Theory, path integrals, and non-perturbative effects in gauge theories. Recognized for his academic contributions, he has been associated with several leading institutions and has published numerous papers that continue to guide scholars in theoretical physics. His research skills encompass analytical modeling, mathematical physics, and the rigorous development of quantum systems within the scope of Quantum Field Theory, which he has emphasized repeatedly as the unifying framework of modern physics. In conclusion, Prof. Dr. Z. Haba’s enduring commitment to Quantum Field Theory establishes him as a pioneering figure whose theoretical insights continue to shape contemporary physics.

Profiles: ORCID | Google Scholar

Featured Publications

1. Albeverio, S., Haba, Z., & Francesco, R. (1996). Trivial solutions for a nonlinear two-space dimensional wave equation perturbed by space-time white noise. Stochastics: An International Journal of Probability and Stochastic Processes, 80.

2. Albeverio, S., & Haba, Z. (2001). A two-space dimensional semilinear heat equation perturbed by (Gaussian) white noise. Probability Theory and Related Fields, 121, 319–366.

3. Haba, Z. (2009). Relativistic diffusion. Physical Review E: Statistical, Nonlinear, and Soft Matter Physics, 79(2).

4. Benisty, D., Guendelman, E. I., & Haba, Z. (2019). Unification of dark energy and dark matter from diffusive cosmology. Physical Review D, 99(12), 123521.

5. Haba, Z., Stachowski, A., & Szydłowski, M. (2016). Dynamics of the diffusive DM-DE interaction–dynamical system approach. Journal of Cosmology and Astroparticle Physics, 2016(07), 024.*

Mr. Ali Muhammad | Supersymmetry Phenomenology | Best Researcher Award

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Mr. Ali Muhammad | Supersymmetry Phenomenology | Best Researcher Award

Ali Muhammad | University of Chinese Academy of Sciences | China

Mr. Ali Muhammad is an emerging theoretical physicist whose expertise centers on Supersymmetry Phenomenology, integrating it deeply into his education, research, and professional practice. He completed his Bachelor’s, Master’s, and Ph.D. studies in Physics with a strong emphasis on Theoretical Physics and Supersymmetry Phenomenology, particularly through his doctoral research at the Institute of Theoretical Physics, University of the Chinese Academy of Sciences. His academic and teaching experience includes serving as a Lecturer in Physics at Leeds College of Science and Arts in Peshawar, where he honed his skills in both education and Supersymmetry Phenomenology. His research contributions, including publications in Physics Letters B and Physical Review D, reflect his ongoing commitment to advancing Supersymmetry Phenomenology, with specific focus on dark matter models, grand unified theories, and collider phenomenology. Mr. Ali Muhammad’s awards, such as multiple merit recognitions and the CAS-ANSO President’s Fellowship, highlight his excellence and dedication. His technical and research skills encompass Mathematica, MATLAB, Fortran, and specialized tools like MicrOMEGAs, which are instrumental in Supersymmetry Phenomenology studies. Through his extensive involvement in group research, model building, and theoretical analysis, he has applied Supersymmetry Phenomenology to address challenges in modern particle physics, cosmology, and quantum field theory. In conclusion, Mr. Ali Muhammad stands out as a promising scholar whose deep engagement with Supersymmetry Phenomenology, analytical capabilities, and collaborative research outlook position him as a valuable contributor to global advancements in theoretical and high-energy physics.

Profiles: Scopus | ORCID

Featured Publications

1. Khan, I., Muhammad, A., Li, T., & Raza, S. (2025). Revisiting the electroweak supersymmetry from the generalized minimal supergravity.

2. Khan, I., Muhammad, A., Li, T., Raza, S., & Khan, M. (2025). The light neutralino dark matter at future colliders in the MSSM with the generalized minimal supergravity (GmSUGRA).

3. Khan, I., Ahmed, W., Li, T., Raza, S., & Muhammad, A. (2025). The light neutralino dark matter in the generalized minimal supergravity (GmSUGRA). Physics Letters B.

4. Khan, I., Muhammad, A., Li, T., & Raza, S. (2025). Revisiting the realistic intersecting D6-brane model with positive and negative μ terms. Physical Review D.

Prof. Viviane Faleiro | Experimental Methods | Women Researcher Award

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Prof. Viviane Faleiro | Experimental Methods | Women Researcher Award

Professor | Universidade Estácio de Sá | Brazil

Prof. Viviane Faleiro is an accomplished academic and researcher renowned for her innovative contributions to health sciences through advanced Experimental Methods. As a lecturer and researcher at Universidade Estácio de Sá and Universidade Salgado de Oliveira, she has built a distinguished career centered on Experimental Methods in exercise physiology, metabolism, and occupational well-being. Her research integrates Experimental Methods to explore the physiological mechanisms underlying exercise performance, energy metabolism, and workplace health. Through her work at the Exercise Physiology Laboratory (LAFIEX), she employs precise Experimental Methods to analyze post-exercise oxygen consumption, lipid oxidation, and recovery processes, contributing to a deeper understanding of metabolic adaptations to various training protocols. Prof. Viviane Faleiro’s scientific achievements include publications in leading journals such as Sports (MDPI) and Journal of Functional Morphology and Kinesiology, where she has effectively applied Experimental Methods to demonstrate the superiority of high-intensity and circuit training in enhancing metabolic efficiency. Her collaborations with prominent researchers at Universidade do Estado do Rio de Janeiro (UERJ) and UNISUAM highlight her commitment to interdisciplinary research, where Experimental Methods serve as a bridge between scientific rigor and practical application. Her consultancy work at INOOVA Assessoria Esportiva further extends her influence beyond academia, integrating Experimental Methods into health promotion and sports performance programs that impact public and private sector initiatives, including the Maricá Cidade Olímpica project. Her continued engagement with scientific publication and international collaboration reflects her role as a global advocate for the use of Experimental Methods in advancing human performance and occupational health research. With a growing presence in citation databases and an expanding body of peer-reviewed work, Prof. Viviane Faleiro exemplifies scientific precision, innovation, and dedication. Her commitment to applying Experimental Methods in every aspect of her research underscores her impact on developing evidence-based strategies for training, rehabilitation, and inclusive physical education, contributing significantly to the global advancement of exercise and health sciences.

Profiles: Scopus | ORCID

Featured Publications

1. Faleiro, V., Gurgel, A. V., Guimarães, T. T., Figueiredo, T. C., Teixeira, F. G., Jotta, B., Monteiro, E. R., Meirelles, A. G., Caldas, C. C. A., & de Almeida, M. T. (2025). Isocaloric high-intensity interval and circuit training increases excess post-exercise oxygen consumption and lipid oxidation compared to moderate-intensity continuous training. Sports, 13(10), 355.

2. Marques Neto, S. R., Lattari, E., Gurgel, A., Faleiro, V., Machado, S., Farinatti, P., & Maranhão Neto, G. (2019). Determination of heart rate threshold from heart rate kinetics during maximal graded exercise in soccer players. Revista Brasileira de Cineantropometria & Desempenho Humano.

Prof. Dr. Kyosuke Ono | Standard Model Physics | Best Researcher Award

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Prof. Dr. Kyosuke Ono | Standard Model Physics | Best Researcher Award

Professor of Emeritus | Institute of Science Tokyo | Japan

Prof. Dr. Kyosuke Ono is an esteemed physicist renowned for his pioneering contributions to Standard Model Physics and applied tribology. His distinguished career at the Tokyo Institute of Technology, where he served as a professor and later as an emeritus scholar, is marked by extensive research in Standard Model Physics that bridges fundamental particle behavior with mechanical system dynamics. Throughout his tenure, Prof. Dr. Ono made significant advances in understanding sub-monolayer lubricant physics within the head-disk interface, offering crucial insights that align the precision of Standard Model Physics principles with nanoscale mechanical phenomena. His scholarly work reflects deep engagement with the continuum mechanics framework and its extension into sub-monolayer film theory, where Standard Model Physics served as the theoretical backbone guiding molecular interactions and force distributions at the atomic level. Prof. Dr. Ono’s prolific academic output includes numerous publications in leading international journals such as Tribology Letters, ASME Transactions on Tribology, and ASME Transactions on Applied Mechanics. His h-index of 26 demonstrates substantial influence and citation within the global Standard Model Physics and mechanical engineering communities. His collaborations with the Storage Research Consortium in Japan and industrial contributions as a technical advisor for hard disk drive development underscore his ability to translate Standard Model Physics insights into practical innovations with lasting industrial relevance. Furthermore, as an editorial board member for Lubricants (EDPI), he has consistently advanced the dissemination of high-quality research in the interdisciplinary field of tribology and Standard Model Physics. Through his remarkable integration of theory, experimentation, and application, Prof. Dr. Kyosuke Ono has significantly shaped modern interpretations of nanoscale lubrication and dynamics. His work stands as a testament to the versatility of Standard Model Physics in solving real-world engineering problems and continues to inspire the next generation of researchers to extend the boundaries of applied and theoretical physics.

Profile: ORCID

Featured Publication

1. Ono, K. (2016–2019). Analytical study of slider vibrations and lubricant flow in subnanometer head-disk interface [Grant No. 16K06039]. Ministry of Education, Science and Technology, Tokyo, Japan.

Mehabaw Fikrie Yehuala |  Computaional Physics | Best Researcher Award

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Mr. Mehabaw Fikrie Yehuala |  Computaional Physics | Best Researcher Award

Chief Academic Technical Assistant | University of Gondar | Ethiopia

Mr. Mehabaw Fikrie Yehuala is an emerging researcher and academic professional specializing in Computational Physics, with an active role as Chief Academic Technical Assistant at the University of Gondar. His career reflects a deep commitment to advancing Computational Physics through theoretical modeling, simulation techniques, and practical implementation in modern physical systems. His research expertise centers on Computational Physics applications in material dynamics, phase separation, and simulation-based investigations, particularly focusing on systems involving complex mixtures and energy interactions. Through his scholarly journey, Mr. Mehabaw has demonstrated a rigorous approach to Computational Physics, integrating programming proficiency in Python, Fortran, and LaTeX with analytical frameworks to model and interpret physical phenomena. His publication in Separation Science and Technology stands as a key contribution to the scientific community, highlighting the relevance of Computational Physics in studying the phase separation of oil–water mixtures using Monte Carlo simulation methods. His collaborative research embodies an interdisciplinary essence, bridging experimental insights with the predictive strength of Computational Physics. Mr. Mehabaw’s professional engagement extends beyond research into educational innovation, where he has contributed significantly to the development of physics laboratory manuals and academic resource materials, further strengthening the pedagogical aspects of Computational Physics education. His recognition for academic excellence and active participation in institutional development underscores his leadership and dedication to the advancement of scientific knowledge. As an analytical thinker and a collaborative scientist, Mr. Mehabaw continues to explore new dimensions in Computational Physics, contributing to both academic and societal progress. His vision emphasizes fostering research-driven learning environments and leveraging Computational Physics methodologies to address real-world scientific and industrial challenges, marking him as a promising contributor to the global physics and research community.

Profile: ORCID

Featured Publication

1. Fikrie, M., Birhanu, T., Bassie, Y., Abebe, Y., & Temare, Y. (2025). Investigation of phase separation of mixture of oil and water in Monte Carlo simulation. Separation Science and Technology.

Dr. Jagadish | Engineering | Best Researcher Award

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Dr. Jagadish | Engineering | Best Researcher Award

Assistant Professor | Indian Statistical Institute, Bengaluru Centre | India

Dr. Jagadish is a distinguished researcher and Assistant Professor at the Indian Statistical Institute, Bangalore Centre, known for his influential contributions in Engineering fields encompassing Industrial Engineering, Production Engineering, and Mechanical Engineering. His academic and research accomplishments reflect a deep commitment to advancing Engineering principles through innovation, optimization, and sustainable development. With a strong foundation in Engineering optimization techniques, Engineering management, and Engineering modeling, Dr. Jagadish has established a reputation for excellence in multidisciplinary Engineering research. He has published 52 documents and accumulated 853 citations, achieving an h-index of 15 on Scopus, underscoring the impact and visibility of his scholarly work. A prolific author, Dr. Jagadish has contributed significantly to high-impact international journals and has authored and co-authored numerous Engineering books and book chapters published by leading academic publishers such as Springer, IGI Global, and Elsevier. His Engineering research spans optimization in green manufacturing, additive manufacturing, sustainable composites, and decision-making methods in production systems. He has also collaborated extensively with academic and industrial partners across multiple Engineering disciplines, bridging theoretical analysis with practical applications. His Engineering consultancy and project leadership demonstrate a strong connection between academic research and industrial implementation, particularly in areas such as quality management, Six Sigma applications, and process optimization. Dr. Jagadish’s leadership in Engineering training programs, conferences, and applied research projects has contributed greatly to capacity building and knowledge transfer in the Engineering community. His research integrates computational methods, experimental design, and sustainable approaches, reflecting the evolving role of Engineering in addressing environmental and industrial challenges. Through his consistent scholarly excellence and dedication to innovation, Dr. Jagadish continues to advance the frontiers of modern Engineering, contributing meaningfully to both academia and society.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

1. Performance Analysis and Optimization of Different Electrode Materials and Dielectric Fluids on Machining of High Carbon High Chromium Steel in Electrical Discharge Machining. (2022). Proceedings of the National Academy of Sciences India Section A: Physical Sciences.

2. Evaluation of Machining Properties of Short Bamboo Fiber-Based Green Composites Using CNC Drilling Process. (Conference Paper).

3. Performance Evaluation of Sand Coated Absorber Based Solar Air Collector. (2021). Journal of Building Engineering.

4. Energy, Exergy, and Environmental (3E) Analyses of Reverse and Cross-Corrugated Trapezoidal Solar Air Collectors: An Experimental Study. (2021). Journal of Building Engineering.

5. A Soft Computing-Based Study on WEDM Optimization in Processing Inconel 625. (2021). Neural Computing and Applications.

Dr. Kentaro Saeki | Visual Optics | Best Researcher Award

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Dr. Kentaro Saeki | Visual Optics | Best Researcher Award

Assistant Manager | SEED Co., Ltd. | Japan

Dr. Kentaro Saeki is a distinguished researcher and professional recognized for his extensive contributions to the field of Visual Optics. His work bridges the disciplines of optical engineering and biomedical innovation, focusing on advancing technologies that enhance visual performance and optical precision. With a strong foundation in Visual Optics, Dr. Kentaro Saeki has demonstrated remarkable expertise in developing innovative approaches that integrate theoretical and applied aspects of optical science. His research and professional activities have significantly contributed to the advancement of Visual Optics, particularly in designing and evaluating complex visual systems that improve both practical and clinical applications. As an active member of Japan’s scientific and engineering community, Dr. Kentaro Saeki has held positions of increasing responsibility, including his current role as Assistant Manager in the Engineering Department at SEED Co., Ltd., where his leadership continues to drive progress in Visual Optics innovation. His academic involvement as an Instructor at Tokyo Optometric College further reflects his commitment to shaping the next generation of specialists in Visual Optics. Through this dual engagement in industry and academia, he fosters collaboration that strengthens applied research and product development in the domain of Visual Optics. Dr. Kentaro Saeki’s professional record includes numerous research collaborations, publications, and contributions to optical science and visual perception studies. His impact extends beyond research, influencing technological development in Visual Optics and promoting sustainable solutions that improve human visual health. Dedicated, innovative, and internationally oriented, Dr. Kentaro Saeki continues to enhance the scientific understanding and practical applications of Visual Optics, establishing himself as a leading figure committed to excellence and discovery within this evolving field. His Scopus Profile is 12 Citations, 5 Documents, 2 h-index.

Profiles: ORCID | Scopus 

Featured Publications

1. Tatsumi, K., Saeki, K., Kubota, S., Kaneda, Y., Uno, K., Ohnuma, K., & Shiina, T. (2025). Evaluation method for resin mold using reflective wavefront sensor. Sensors, 25(21), 6682.

2. Saeki, K., Huyan, D., Sawada, M., Nakamura, A., Kubota, S., Uno, K., Ohnuma, K., & Shiina, T. (2021). Three-dimensional measurement for spherical and nonspherical shapes of contact lenses. Applied Optics, 60(13), 419721.

3. Saeki, K., Huyan, D., Sawada, M., Sun, Y., Nakamura, A., Kimura, M., Kubota, S., Uno, K., Ohnuma, K., & Shiina, T. (2020). Measurement algorithm for real front and back curved surfaces of contact lenses. Applied Optics, 59(28), 399190.