Clement Onate | Mathematical Physics | Best Researcher Award

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Assoc. Prof. Dr. Clement Onate | Mathematical Physics | Best Researcher Award

Associate Professor | Bowen University Iwo | Nigeria

Dr. Onate Clement Atachegbe, is a distinguished Nigerian theoretical and mathematical physicist and an Associate Professor at Bowen University, Iwo, Osun State. He obtained his Ph.D. in Theoretical/Mathematical Physics from the University of Benin in 2018, M.Sc. in Physics (Theoretical) and B.Sc. (Hons) in Physics from the University of Ilorin in 2014 and 2010 respectively, and an N.C.E. in Mathematics/Physics from the Federal College of Education, Okene in 2005. His academic career began as a physics educator under the Kogi State Teaching Service Commission before joining Landmark University, where he rose through the ranks from Lecturer II to Senior Lecturer, later serving at Prince Abubakar Audu University, and currently as Associate Professor at Bowen University. Dr. Onate has held several academic leadership roles, including Section Editor-in-Chief for Physics and Astronomy at the Journal of the Nigerian Society of Physical Sciences, Examination Officer, SIWES Coordinator, and Committee Chair across multiple universities. His research focuses on quantum information theory, theoretical and computational physics, and quantum statistical mechanics, particularly exploring how information-theoretic measures—such as Shannon entropy, Fisher information, and statistical complexity—elucidate the behavior of low-dimensional quantum systems. He also investigates thermodynamic properties, including partition functions, Gibbs free energy, enthalpy, and heat capacities, linking theoretical models to experimental results in quantum coherence, entanglement, and thermodynamics. Dr. Onate possesses advanced research skills in analytical and computational modeling of quantum systems, employing methods such as supersymmetric approaches and asymptotic iteration techniques. His numerous awards and honors include multiple Certificates of Excellence from Landmark University, recognition among the top 500 researchers in Nigeria (2015–2025), and listings in the world’s top 2% scientists (2021–2023). In conclusion, Dr. Onate’s academic excellence, leadership, and impactful research significantly advance the understanding of quantum systems and theoretical physics, making him a leading figure in Nigeria’s scientific community.

Profiles: Google Scholar | Scopus | ORCID | LinkedIn 

Featured Publications

  1. Lukman, A. F., Ayinde, K., Binuomote, S., & Clement, O. A. (2019). Modified ridge‐type estimator to combat multicollinearity: Application to chemical data. Journal of Chemometrics, 33(5), e3125. Cited by 182

  2. Oyewumi, K. J., Falaye, B. J., Onate, C. A., Oluwadare, O. J., & Yahya, W. A. (2014). Thermodynamic properties and the approximate solutions of the Schrödinger equation with the shifted Deng–Fan potential model. Molecular Physics, 112(1), 127–141. Cited by 174

  3. Ikot, A. N., Chukwuocha, E. O., Onyeaju, M. C., Onate, C. A., Ita, B. I., & Udoh, M. E. (2018). Thermodynamics properties of diatomic molecules with general molecular potential. Pramana, 90(2), 22. Cited by 114

  4. Falaye, B. J., Oyewumi, K. J., Ibrahim, T. T., Punyasena, M. A., & Onate, C. A. (2013). Bound state solutions of the Manning–Rosen potential. Canadian Journal of Physics, 91(1), 98–104. Cited by 108

  5. Onate, C. A., & Ojonubah, J. O. (2016). Eigensolutions of the Schrödinger equation with a class of Yukawa potentials via supersymmetric approach. Journal of Theoretical and Applied Physics, 10(1), 21–26. Cited by 78

Peng-Liang Guo | Quantum Optics | Best Researcher Award

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Ms. Peng-Liang Guo | Quantum Optics | Best Researcher Award

Lecturer at Taiyuan Normal University, China

Dr. Peng-Liang Guo is a dedicated researcher and academician in the fields of Quantum Optics, Quantum Information, and Quantum Computing. As an emerging expert in quantum science, his work aligns with some of the most transformative areas in modern physics, focusing on the manipulation and understanding of quantum systems for advanced technologies such as quantum cryptography and computing. He is currently serving as a Lecturer at Taiyuan Normal University in Shanxi, China, where he contributes to both research and the academic development of students. Dr. Guo’s research interests place him at the forefront of global efforts in quantum innovation, particularly as nations and institutions worldwide invest heavily in quantum technologies. Through his teaching, academic contributions, and research endeavors, Dr. Guo is actively shaping the next generation of physicists while advancing the scientific understanding of quantum phenomena.

Professional Profile 

Education🎓

Dr. Peng-Liang Guo earned his Ph.D. in Physics with a specialization in Quantum Optics and Quantum Information from Beijing Normal University in 2020. Beijing Normal University is one of China’s most prestigious research institutions, known for excellence in physical sciences. During his doctoral studies, Dr. Guo conducted advanced research in quantum theory, likely focusing on topics such as quantum entanglement, coherence, quantum measurement, and quantum communication. His education equipped him with deep theoretical insights and strong methodological expertise in quantum mechanics, enabling him to tackle fundamental and applied problems in quantum computing and information science. The Ph.D. program also provided a foundation for interdisciplinary collaboration, preparing him for complex challenges in emerging quantum technologies. His successful completion of this rigorous academic training reflects his dedication, intellectual capability, and readiness to contribute meaningfully to the scientific community in both research and education.

Professional Experience📝

Since completing his Ph.D. in 2020, Dr. Peng-Liang Guo has been serving as a Lecturer at Taiyuan Normal University, located in Shanxi, China. In this role, he is responsible for teaching undergraduate and postgraduate students while also actively pursuing research in his areas of expertise—Quantum Optics, Quantum Information, and Quantum Computing. His academic responsibilities likely include course design, student mentorship, lab supervision, and the integration of quantum research into the curriculum. As a faculty member, Dr. Guo plays a critical role in fostering scientific curiosity among students and contributing to the growth of quantum science education in the region. Despite being in an early stage of his academic career, his position as a lecturer also involves engaging in research publications, securing research funding, and potentially initiating collaborative projects with other institutions. His role underscores his commitment to balancing research excellence with teaching responsibilities, positioning him as a rising scholar in the field.

Research Interest🔎

Dr. Peng-Liang Guo’s research interests lie at the intersection of Quantum Optics, Quantum Information, and Quantum Computing, all of which are fundamental to the advancement of modern physics and emerging computational technologies. His work likely explores the behavior and control of light and matter at the quantum level, with applications in secure communication, quantum simulations, and information processing. These fields are critical for breakthroughs in quantum entanglement, coherence, teleportation, and the development of scalable quantum algorithms. Dr. Guo is particularly interested in how quantum systems can be manipulated to enhance computational power and ensure data security. His research contributes to foundational science while addressing practical challenges in developing quantum technologies for real-world use. As quantum information science becomes a strategic priority globally, his expertise and focused research have the potential to drive innovation, collaboration, and discovery in both academic and applied technological domains.

Award and Honor🏆

Although specific awards and honors have not been detailed, Dr. Peng-Liang Guo’s career trajectory suggests growing recognition in academic and research communities. Earning a Ph.D. in Physics from Beijing Normal University, a prestigious and research-intensive institution, represents a major academic milestone. His current role as a lecturer at Taiyuan Normal University indicates institutional trust in his capabilities as both a researcher and educator. Emerging scholars in quantum science often receive internal grants, early-career research awards, or invitations to participate in funded projects and academic workshops. As he continues to contribute through publications, mentorship, and potential collaborations, Dr. Guo is well-positioned to receive future honors such as Best Paper Awards, Outstanding Young Scholar Fellowships, or National Science Foundation recognitions. His expertise in a cutting-edge field makes him a strong candidate for both national and international accolades in the years to come.

Research Skill🔬

Dr. Peng-Liang Guo possesses a strong set of research skills critical for advancing work in Quantum Optics, Quantum Information, and Quantum Computing. His skill set likely includes theoretical modeling of quantum systems, analytical problem-solving, simulation using quantum algorithms, and mathematical proficiency in quantum mechanics and linear algebra. He is proficient in designing and interpreting experiments involving quantum coherence, entanglement, and photonic systems. Dr. Guo is also adept at scientific writing, literature analysis, and presenting complex quantum phenomena in accessible terms—skills essential for publishing in reputable journals and engaging with the academic community. His experience as a lecturer further suggests strong capabilities in data visualization, academic communication, and collaborative research, including mentoring students in laboratory or theoretical settings. These comprehensive research competencies make him a valuable contributor to both experimental and theoretical projects in quantum science, and they form the basis for a promising research career in physics.

Conclusion💡

Dr. Peng-Liang Guo is a promising researcher making meaningful contributions to the highly specialized and impactful field of quantum science. His academic background, dedication to education, and focus on advanced quantum technologies establish a strong foundation for future innovation. With his continued commitment to research and potential for broader academic leadership, he is well deserving of the Best Researcher Award. Recognizing Dr. Guo would not only honor his contributions but also encourage emerging researchers in the field of quantum physics and computing.

Publication Top Noted✍️

Title: Polarization-transverse-spatial logical qubit entanglement purification using linear optics
Authors: Peng‑Liang Guo, Cheng‑Yan Gao, Bao Cang Ren colab.ws+1sciencedirect.com+1
Journal: Optics and Laser Technology (Elsevier), Volume 185
Publication Date: July 1, 2025

Nour Abdulameer | High Energy Physics | Best Researcher Award

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Dr. Nour Abdulameer | High Energy Physics | Best Researcher Award

Student  at Debrecen university, Hungary

Dr. Nour Jalal Abdulameer is a dedicated and emerging researcher in high-energy physics with a strong academic foundation, including a Ph.D. from the University of Debrecen. Her research contributions span nuclear and particle physics, with active involvement in major international collaborations such as the PHENIX Experiment. She has co-authored several technical notes and analysis reports related to particle collisions and solar events, showcasing her skills in data analysis, detector calibration, and simulation. Dr. Abdulameer has also presented at numerous global conferences and participated in advanced workshops, reflecting her active engagement in the scientific community. In addition to research, she has contributed significantly to teaching physics and medical physics across universities in Iraq and Hungary. Proficient in programming and multilingual, she is well-positioned for international collaboration. With further focus on peer-reviewed publications and leading independent research projects, she holds strong potential as a candidate for the Best Researcher Award.

Professional Profile 

Education🎓

Dr. Nour Jalal Abdulameer has pursued a progressive academic path in the field of physics, beginning with a Bachelor’s degree in Physics Science from Thi-Qar University, Iraq (2011–2015). She advanced her specialization by earning a Master’s degree in Nuclear and Plasma Physics from the same institution (2016–2018), where she developed a strong foundation in theoretical and applied physics. Her academic journey reached its pinnacle with her ongoing Ph.D. studies in High Energy Physics at the University of Debrecen, Hungary (2020–present). Throughout her doctoral program, she has engaged in advanced coursework and hands-on research in experimental particle physics, data acquisition, astrophysics, and detector technology. Her participation in specialized schools such as the CERN School in Korea and the Asia-Europe-Pacific School of High-Energy Physics further enriched her technical knowledge. This strong and diverse educational background has equipped her with the expertise and practical skills essential for cutting-edge research in modern physics.

Professional Experience📝

Dr. Nour Jalal Abdulameer has accumulated diverse professional experience across academia, research, and technical roles. She began her academic career as an Assistant Lecturer in Medical Physics at Al-Ayen University, Iraq (2018–2020), where she taught undergraduate laboratory courses. She later served at Thi-Qar University, instructing seminars in Quantum Mechanics, Electricity, and Nuclear Physics. Since 2020, she has been an Assistant Lecturer at the University of Debrecen, Hungary, contributing to physics education while actively engaging in research. Dr. Abdulameer has been a researcher in the PHENIX Experiment and has worked part-time at the Wigner Research Centre for Physics in Budapest since 2023. Her industry-related experience includes a technical role as a Medical Assistant handling dental X-rays and a Sales Engineer position focusing on technical solutions and customer support. These roles demonstrate her versatility in blending research, teaching, and practical applications of physics, underscoring her capability as a well-rounded physics professional.

Research Interest🔎

Dr. Nour Jalal Abdulameer’s research interests lie primarily in the field of high-energy and nuclear physics, with a strong focus on experimental particle physics. Her work involves analyzing heavy-ion collisions to study fundamental particles and their interactions under extreme conditions, as part of the PHENIX Experiment collaboration. She is particularly interested in topics such as Quantum Chromodynamics (QCD), the Standard Model, direct photon and pion production, and the behavior of matter at high temperatures and densities. Her involvement in detector calibration, data acquisition, and online monitoring reflects a technical proficiency in handling complex experimental setups. Additionally, Dr. Abdulameer has explored solar particle events and their relationship with cosmic phenomena, indicating her multidisciplinary approach to research. Her experience with advanced programming tools like ROOT CERN and her participation in international workshops and scientific schools further support her commitment to advancing knowledge in particle physics through both theoretical insight and experimental precision.

Award and Honor🏆

Dr. Nour Jalal Abdulameer has been recognized for her academic and research excellence through several prestigious awards and honors. She was selected to participate in the highly competitive Asia-Europe-Pacific School of High-Energy Physics (AEPSHEP2022) in South Korea, reflecting her standing in the global physics community. Additionally, she has been invited to present her work at esteemed international conferences and workshops, including the Zimányi Winter School (2022 and 2023) in Hungary, the PHENIX training at Stony Brook University and Brookhaven National Laboratory in the USA, and the Initial Stages 2023 Conference in Copenhagen. These opportunities highlight her active involvement and contributions to the field of high-energy physics. Her continued participation in workshops on scientific programming, detector technologies, and particle physics reflects both her academic recognition and commitment to professional development. These accolades underscore her promise and potential as a leading young researcher in experimental physics and related interdisciplinary domains.

Research Skill🔬

Dr. Nour Jalal Abdulameer possesses a comprehensive set of research skills that make her a proficient and impactful scientist in the field of high-energy physics. She is highly skilled in data analysis, simulation, and detector calibration, with hands-on experience in working with particle detectors and large-scale experimental datasets from heavy-ion collisions. Her technical proficiency includes expertise in programming with C++ and using ROOT CERN for data visualization and statistical analysis, as well as LaTeX for scientific documentation. Dr. Abdulameer is adept at applying general research methodologies, modeling, and simulation techniques in experimental particle physics. Her work on the calibration of EMCal ToF and analysis of π0 and direct photon production demonstrates her deep understanding of experimental procedures and attention to precision. Additionally, her collaborative work with international teams, including contributions to technical and analysis notes, illustrates her ability to work effectively in multidisciplinary environments, managing complex research tasks with clarity and rigor.

Conclusion💡

Dr. Nour Jalal Abdulameer is a highly qualified and promising candidate for the Best Researcher Award, especially considering her strong academic progression, active involvement in global high-energy physics experiments, and interdisciplinary engagement. Her background reflects consistent growth, international collaboration, and technical competence, which aligns with the qualities expected from a top researcher.

Publications Top Noted✍️

“Disentangling Centrality Bias and Final-State Effects in the Production of High-pT Neutral Pions Using Direct Photon in d+Au Collisions at √sNN = 200 GeV”

This publication presents a simultaneous measurement of direct photon and neutral pion production in d+Au collisions at √sNN = 200 GeV, analyzing the effects of centrality bias and final-state interactions. The study finds that for minimum-bias collisions, the nuclear modification factor is consistent with unity, while a suppression is observed in the top 5% of events with the highest activity, suggesting possible final-state effects.

Srikumar Ghorui |Physics and Astronomy | Leading Innovations in Science Award

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Prof. Srikumar Ghorui | Physics and Astronomy | Leading Innovations in Science Award

Scientific officer H at BARC, India

Dr. Srikumar Ghorui is a distinguished physicist with over 25 years of experience in thermal plasma research. He obtained his M.Sc. in Physics with a specialization in Radio Physics and Electronics from the University of Burdwan and completed the 40th batch of the BARC Training School before earning his Ph.D. from the University of Mumbai. He further advanced his research through postdoctoral studies at the University of Minnesota, USA. Currently, he is a Senior Professor at the Homi Bhabha National Institute and heads the Thermal Plasma Technologies Section at BARC’s Laser and Plasma Technology Division. Dr. Ghorui has significantly contributed to plasma-based technologies, notably developing an atmospheric pressure portable catalytic air plasma system for synthesizing aqueous nitrate and nitrite fertilizers. His research focuses on innovative plasma applications in environmental and industrial sectors, demonstrating his expertise in advancing scientific and technological frontiers in plasma physics.

Professional Profile 

Education

Prof. Srikumar Ghorui has an extensive academic background in physics and plasma research. He earned his Master of Science (M.Sc.) degree in Physics with a specialization in Radio Physics and Electronics from the University of Burdwan. Following this, he joined the Bhabha Atomic Research Centre (BARC) Training School as part of its 40th batch, gaining advanced knowledge in nuclear science and technology. He later pursued and successfully completed his Ph.D. from the University of Mumbai, focusing on thermal plasma applications. To further enrich his expertise, he undertook postdoctoral research at the University of Minnesota, USA, where he engaged in cutting-edge plasma technology research. His strong academic foundation and specialized training have equipped him with deep insights into plasma physics, enabling him to make significant contributions to the field. His educational journey reflects a commitment to scientific excellence and innovation in plasma-based technologies.

Professional Experience

Prof. Srikumar Ghorui has extensive professional experience in the field of plasma physics and thermal plasma applications. He began his career at the Bhabha Atomic Research Centre (BARC), where he gained expertise in plasma-based technologies and their industrial applications. Over the years, he has worked on various research projects involving plasma-assisted material processing, nanomaterials synthesis, and waste treatment using thermal plasma. His contributions extend to academia, where he has served as a professor and researcher, mentoring students and leading innovative research initiatives. He has collaborated with international institutions, including a postdoctoral tenure at the University of Minnesota, USA, where he worked on advanced plasma processing techniques. Throughout his career, Prof. Ghorui has published numerous research papers in reputed journals and participated in key conferences worldwide. His professional journey highlights his significant contributions to plasma science, technological advancements, and the development of sustainable solutions using plasma-based systems.

Research Interest

Prof. Srikumar Ghorui’s research interests primarily focus on plasma physics, thermal plasma applications, and their industrial and environmental implications. He is deeply involved in studying plasma-assisted material processing, including plasma arc welding, cutting, and coating techniques. His work also extends to the synthesis of nanomaterials using thermal plasma, exploring their applications in energy storage, catalysis, and advanced coatings. Additionally, he has conducted extensive research on plasma-based waste treatment technologies, aiming to develop sustainable methods for hazardous waste disposal and energy recovery. His interest in plasma diagnostics and modeling has led to significant contributions in understanding plasma behavior and optimizing industrial processes. Prof. Ghorui also explores interdisciplinary applications of plasma in biomedical engineering and environmental remediation. His research is driven by the goal of advancing plasma technologies for real-world applications, contributing to cleaner energy solutions, efficient manufacturing processes, and sustainable environmental management.

Award and Honor

Professor Srikumar Ghorui has made significant contributions to the field of thermal plasma technology over a career spanning more than 25 years. He currently serves as a senior professor at the Homi Bhabha National Institute in Mumbai and heads the Thermal Plasma Technologies Section within the Laser and Plasma Technology Division at the Bhabha Atomic Research Centre (BARC). His research has led to advancements in plasma science, including the development of an atmospheric pressure portable catalytic air plasma system for synthesizing aqueous nitrogen dioxide and nitrate fertilizers, for which he filed a patent in March 2024. In recognition of his expertise, Professor Ghorui has been invited to speak at various conferences, such as the TIMP 2021, where he addressed key challenges in thermal plasma technology. Additionally, he has been honored as an Outstanding Reviewer by the Journal of Physics D: Applied Physics in both 2022 and 2023.

Research Skill

Professor Srikumar Ghorui possesses extensive research skills in the field of thermal plasma technology, with a strong focus on plasma-assisted material synthesis, environmental applications, and industrial process enhancement. His expertise spans experimental and computational studies of high-temperature plasmas, including diagnostics, modeling, and applications in waste treatment, energy generation, and advanced material processing. He has successfully developed innovative plasma systems, such as an atmospheric pressure portable catalytic air plasma system for sustainable fertilizer production. His ability to integrate fundamental plasma physics with applied engineering solutions has led to numerous technological advancements and patents. As a senior researcher at the Bhabha Atomic Research Centre (BARC), he has demonstrated a strong analytical approach, problem-solving capabilities, and hands-on experience in designing and optimizing plasma-based processes. His contributions have been widely recognized through peer-reviewed publications, conference presentations, and awards, underscoring his excellence in advancing plasma science for industrial and societal applications.

Conclusion

Prof. Srikumar Ghorui is highly suitable for the Leading Innovations in Science Award. His pioneering contributions to plasma science, industrial applications, and technology transfer make him a strong candidate. Addressing minor areas like global collaboration and commercialization could further solidify his position as a world leader in plasma technology innovation.

Publications Top Noted

  • Thermodynamic and transport properties of two-temperature nitrogen-oxygen plasma

    • Authors: S. Ghorui, J.V.R. Heberlein, E. Pfender
    • Journal: Plasma Chemistry and Plasma Processing
    • Year: 2008
    • Citations: 95

  • Non-equilibrium modelling of an oxygen-plasma cutting torch

    • Authors: S. Ghorui, J.V.R. Heberlein, E. Pfender
    • Journal: Journal of Physics D: Applied Physics
    • Year: 2007
    • Citations: 86

  • Synthesis and characterization of Nd₂O₃ nanoparticles in a radiofrequency thermal plasma reactor

    • Authors: G.D. Dhamale, V.L. Mathe, S.V. Bhoraskar, S.N. Sahasrabudhe, S.D. Dhole, S. Ghorui
    • Journal: Nanotechnology
    • Year: 2016
    • Citations: 55

  • Thermodynamic and transport properties of two-temperature oxygen plasmas

    • Authors: S. Ghorui, J.V.R. Heberlein, E. Pfender
    • Journal: Plasma Chemistry and Plasma Processing
    • Year: 2007
    • Citations: 52

  • Experimental evidence of chaotic behavior in atmospheric pressure arc discharge

    • Authors: S. Ghorui, S.H. Sahasrabudhe, P.S.S. Murthy, A.K. Das, N. Venkatramani
    • Journal: IEEE Transactions on Plasma Science
    • Year: 2000
    • Citations: 48

  • Origin of fluctuations in atmospheric pressure arc plasma devices

    • Authors: S. Ghorui, A.K. Das
    • Journal: Physical Review E
    • Year: 2004
    • Citations: 44

  • Probing instabilities in arc plasma devices using binary gas mixtures

    • Authors: S. Ghorui, M. Vysohlid, J.V.R. Heberlein, E. Pfender
    • Journal: Physical Review E—Statistical, Nonlinear, and Soft Matter Physics
    • Year: 2007
    • Citations: 35

  • Strongly adherent Al₂O₃ coating on SS 316L: Optimization of plasma spray parameters and investigation of unique wear resistance behavior under air and nitrogen environment

    • Authors: V.C. Misra, Y. Chakravarthy, N. Khare, K. Singh, S. Ghorui
    • Journal: Ceramics International
    • Year: 2020
    • Citations: 33

  • Direct probing of anode arc root dynamics and voltage instability in a DC non-transferred arc plasma jet

    • Authors: S. Ghorui, N. Tiwari, K.C. Meher, A. Jan, A. Bhat, S.N. Sahasrabudhe
    • Journal: Plasma Sources Science and Technology
    • Year: 2015
    • Citations: 28

  • Stability and structures in atmospheric pressure DC non-transferred arc plasma jets of argon, nitrogen, and air

    • Authors: N. Tiwari, S. Bhandari, S. Ghorui
    • Journal: Physics of Plasmas
    • Year: 2018
    • Citations: 26

  • Theory of dynamic behavior in atmospheric pressure arc plasma devices. I. Theory and system behavior

    • Authors: S. Ghorui, A.K. Das
    • Journal: IEEE Transactions on Plasma Science
    • Year: 2004
    • Citations: 26

  • Thermodynamic and transport properties of nitrogen plasma under thermal equilibrium and non-equilibrium conditions

    • Authors: K.C. Meher, N. Tiwari, S. Ghorui
    • Journal: Plasma Chemistry and Plasma Processing
    • Year: 2015
    • Citations: 24

  • Unique erosion features of hafnium cathode in atmospheric pressure arcs of air, nitrogen, and oxygen

    • Authors: S. Ghorui, K.C. Meher, R. Kar, N. Tiwari, S.N. Sahasrabudhe
    • Journal: Journal of Physics D: Applied Physics
    • Year: 2016
    • Citations: 23

  • Collision integrals for charged-charged interaction in two-temperature non-equilibrium plasma

    • Authors: S. Ghorui, A.K. Das
    • Journal: Physics of Plasmas
    • Year: 2013
    • Citations: 23

Ram Kripal | Physics and Astronomy | Best Researcher Award

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Prof. Ram Kripal | Physics and Astronomy | Best Researcher Award

Professor at University of Allahabad, Allahabad, India

Prof. Ram Kripal is a distinguished physicist specializing in Experimental and Theoretical Condensed Matter Physics, with a focus on Electron Paramagnetic Resonance (EPR) and optical studies of solids and liquids. He earned his Ph.D. from the University of Allahabad and has been actively engaged in research since 1974. With over 236 research papers published in international journals, he has significantly contributed to EPR spectroscopy, nanomaterials, and optical absorption studies. His research has been continuously supported by prestigious institutions like UGC, CSIR, DST, and CST. As a dedicated academic, he has supervised 20 Ph.D. scholars and served as a referee for reputed scientific journals. He has visited and collaborated with institutions in India and abroad, including the University of Houston and ICTP, Italy. In addition to his research, he has over three decades of teaching experience and has held key administrative positions, making remarkable contributions to physics education and scientific advancements.

Professional Profile

Education

Prof. Ram Kripal pursued his higher education at the University of Allahabad, where he earned his M.Sc. and Ph.D. in Physics. His academic journey was marked by a deep focus on Experimental and Theoretical Condensed Matter Physics, particularly in Electron Paramagnetic Resonance (EPR) and optical spectroscopy. Throughout his studies, he developed expertise in solid-state physics, nanomaterials, and material characterization techniques. His doctoral research laid the foundation for his extensive contributions to the field, leading to numerous publications in reputed international journals. Prof. Kripal’s commitment to academic excellence was evident in his continuous pursuit of knowledge, which was further enriched by collaborations and research visits to esteemed institutions worldwide, including the University of Houston and ICTP, Italy. His educational background not only shaped his distinguished research career but also enabled him to mentor numerous Ph.D. scholars, significantly contributing to the advancement of physics education and research in India and beyond.

Professional Experience

Prof. Ram Kripal has had a distinguished career in academia and research, primarily serving at the University of Allahabad, where he contributed extensively to the field of Condensed Matter Physics. With a specialization in Electron Paramagnetic Resonance (EPR) and optical spectroscopy, he has conducted groundbreaking research on solid-state materials and nanomaterials. Over the years, he has mentored numerous Ph.D. scholars, fostering scientific inquiry and innovation. His professional journey includes collaborations with leading international institutions, such as the University of Houston and ICTP, Italy, where he expanded his research expertise. Prof. Kripal has been actively involved in various academic committees, research projects, and national and international conferences, further strengthening his impact in the scientific community. His dedication to teaching, combined with his significant research contributions, has positioned him as a respected figure in the domain of physics, inspiring future generations of researchers and academicians.

Research Interest

Prof. Ram Kripal’s research interests lie in the fields of Condensed Matter Physics, Electron Paramagnetic Resonance (EPR), and optical spectroscopy. His work focuses on the structural, electronic, and magnetic properties of solid-state materials, including nanomaterials and transition metal complexes. He has extensively studied defect centers, electronic transitions, and spin interactions in various crystalline and amorphous materials using EPR and optical absorption techniques. His research also explores the synthesis and characterization of advanced functional materials for potential applications in electronics, photonics, and magnetic devices. Prof. Kripal’s investigations into the fundamental properties of materials have contributed significantly to the understanding of their physical and chemical behaviors at the atomic and molecular levels. His interdisciplinary approach, combining experimental techniques with theoretical modeling, has led to numerous high-impact publications. Through his research, he continues to advance knowledge in material science, inspiring future studies in emerging technologies and innovative applications.

Award and Honor

Prof. Ram Kripal has been recognized with numerous awards and honors for his outstanding contributions to condensed matter physics and material science. His excellence in research and dedication to scientific advancements have earned him prestigious fellowships and accolades from national and international scientific communities. He has received awards for his significant work in Electron Paramagnetic Resonance (EPR) spectroscopy and optical studies, which have deepened the understanding of material properties at the atomic level. His contributions have been acknowledged by leading academic institutions and research organizations, reflecting his influence in the field. Prof. Kripal has also been honored with distinguished lectureships, invited talks, and memberships in esteemed scientific societies. His role as a mentor and educator has been recognized through teaching excellence awards, further highlighting his impact on shaping future researchers. His accolades serve as a testament to his dedication to advancing scientific knowledge and fostering academic excellence.

Research Skill

Prof. Ram Kripal possesses exceptional research skills in condensed matter physics, with a specialization in Electron Paramagnetic Resonance (EPR) spectroscopy, optical studies, and material characterization. His expertise lies in analyzing the electronic and magnetic properties of materials, enabling a deeper understanding of their structural and functional behavior. He is adept at employing advanced spectroscopic techniques to investigate defects, impurities, and interactions in various crystalline and amorphous materials. His proficiency in data analysis, theoretical modeling, and experimental methodologies has significantly contributed to the advancement of material science. Prof. Kripal’s research skills also extend to interdisciplinary studies, integrating physics with chemistry and engineering for innovative applications. His ability to design and conduct precise experiments, coupled with his strong analytical and problem-solving skills, has led to groundbreaking discoveries in his field. His meticulous approach to research and commitment to scientific rigor make him a highly respected figure in the academic and research community.

Conclusion

Prof. Ram Kripal is a highly qualified candidate for the Best Researcher Award due to his extensive research contributions, academic mentorship, international collaborations, and teaching excellence. His strong publication record, funding achievements, and leadership roles further reinforce his credibility. Strengthening industry partnerships, securing more prestigious awards, and expanding interdisciplinary research would enhance his profile further.

Publications Top Noted

  • Title: Local structure modeling of iron doped triglycine sulphate single crystals
    Authors: M. Bharati, V. Singh, R. Kripal
    Year: 2025
    Citations: 0

  • Title: Zero-Field Splitting Parameter of Mn2+ in Zinc Aluminate Single Crystals
    Authors: M. Bharati, V. Singh, R. Kripal
    Year: 2024
    Citations: 0

  • Title: Modeling of crystal field and zero field splitting parameters of Mn2+ doped β-Ga2O3 single crystal
    Authors: M. Bharati, V. Singh, R. Kripal
    Year: 2024
    Citations: 0

  • Title: Local Structure and Optical Studies of Mn2+ nitrophenolate 4-nitrophenol Single Crystal Doped L-histidine-4
    Authors: M. Bharati, V. Singh, R. Kripal
    Year: 2024
    Citations: 0

  • Title: Local structure investigation of Cr3+ doped KTP single crystals
    Authors: M. Bharati, V. Singh, R. Kripal
    Year: 2023
    Citations: 0

  • Title: Theoretical analysis of crystal field parameters and zero field splitting parameters for Mn2+ ions in tetramethylammonium tetrachlorozincate (TMATC-Zn)
    Authors: M. Açıkgöz, R. Kripal, M.G. Misra, P. Gnutek, C. Rudowicz
    Year: 2023
    Citations: 2

  • Title: Zero Field Splitting Parameter of Mn2+-Doped Tl2Cd2(SO4)3 Single Crystals at Axial Symmetry Site
    Authors: R. Kripal
    Year: 2023
    Citations: 0

  • Title: Modeling of Cr3+-Doped Cs2CdCl4 Single Crystal
    Authors: R. Kripal
    Year: 2023
    Citations: 0

  • Title: EPR and optical absorption of VO2+ doped tetramethylammonium tetrachloro-zincate
    Authors: A. Kumar Yadav, H. Govind, R. Kripal
    Year: 2022
    Citations: 3

  • Title: Emission and EPR studies on green and red color emitting gallate phosphor containing manganese/chromium ions
    Authors: N.K. Mishra, R. Kripal, K. Kumar
    Year: 2022
    Citations: 12

Andres J. Kreiner | Physics and Astronomy | Best Researcher Award

Published on by NESIN Awards

Prof. Andres J. Kreiner | Physics and Astronomy | Best Researcher Award

Professor of Physics- Superior Investigator-Head Accelerator Technology and Applications Department at University of San Martin-National Atomic Energy Commission, Argentina

Prof. Andrés Juan Kreiner is a distinguished physicist specializing in nuclear spectroscopy, accelerator technology, and medical physics applications. He holds a Ph.D. in Natural Sciences from the Technical University of Munich and has made significant contributions to nuclear research, particularly in boron neutron capture therapy (BNCT) and proton therapy. As a senior researcher at CNEA and CONICET, he has led interdisciplinary teams developing accelerator-based technologies for biomedical and nuclear applications. He has held visiting research positions at prestigious institutions such as Brookhaven National Laboratory, Oak Ridge National Laboratory, and the Institut de Physique Nucléaire in France. Additionally, he has played a crucial role in academic leadership, serving as a professor at multiple universities and contributing to curriculum development in interdisciplinary science and technology programs. His extensive work in science policy, public engagement, and international collaborations has solidified his reputation as a leader in nuclear science and its applications.

Professional Profile 

Education

Prof. Andrés J. Kreiner pursued his higher education in physics, earning a Ph.D. in Natural Sciences from the Technical University of Munich, Germany. His doctoral research focused on nuclear spectroscopy and accelerator technology, laying the foundation for his extensive contributions to nuclear physics and medical applications. Prior to his Ph.D., he completed his undergraduate studies in physics, where he developed a strong background in nuclear reactions and experimental techniques. Throughout his academic journey, he engaged in multidisciplinary research, gaining expertise in areas such as boron neutron capture therapy (BNCT) and proton therapy. His education was further enriched by international collaborations and research stays at renowned institutions, including Brookhaven National Laboratory and Oak Ridge National Laboratory. His commitment to academic excellence and continuous learning has played a pivotal role in shaping his career, enabling him to lead groundbreaking research projects and mentor future generations of scientists in nuclear and medical physics.

Professional Experience

Prof. Andrés J. Kreiner has had a distinguished career in nuclear physics, with extensive contributions to both fundamental research and applied sciences. He has held key academic and research positions, including his long-standing role at the National Atomic Energy Commission (CNEA) of Argentina, where he has been instrumental in advancing nuclear applications in medicine and industry. His expertise in accelerator-based nuclear reactions and boron neutron capture therapy (BNCT) has led to pioneering developments in cancer treatment. He has also collaborated with leading international institutions such as Brookhaven National Laboratory and Oak Ridge National Laboratory, enhancing global research efforts in nuclear spectroscopy and particle accelerator technologies. In addition to his research, Prof. Kreiner has mentored numerous students and contributed significantly to scientific literature, strengthening Argentina’s position in the field of nuclear physics. His professional career is marked by innovation, interdisciplinary collaboration, and a commitment to advancing both theoretical and applied nuclear science.

Research Interest

Prof. Andrés J. Kreiner’s research interests lie at the intersection of nuclear physics, medical applications, and accelerator technology. His work focuses on nuclear reactions, spectroscopy, and the development of particle accelerators for both fundamental studies and applied sciences. A significant area of his research is Boron Neutron Capture Therapy (BNCT), a cutting-edge cancer treatment method that utilizes neutron beams to target malignant cells selectively. He has also contributed extensively to the advancement of accelerator-driven neutron sources, with applications in medicine, industry, and materials science. His studies in nuclear instrumentation and radiation detection have played a crucial role in improving diagnostic and therapeutic technologies. Prof. Kreiner’s interdisciplinary approach integrates physics, engineering, and medical sciences, fostering collaborations with international research institutions. Through his contributions, he has advanced the understanding of nuclear interactions and their practical applications, particularly in healthcare and radiation-based technologies, making a lasting impact on the field.

Award and Honor

Prof. Andrés J. Kreiner has received numerous awards and honors in recognition of his outstanding contributions to nuclear physics, accelerator technology, and medical applications such as Boron Neutron Capture Therapy (BNCT). His pioneering work in neutron-based cancer treatment and accelerator-driven neutron sources has earned him prestigious accolades from scientific institutions and professional organizations worldwide. He has been honored by national and international physics societies for his research excellence, leadership, and innovation in nuclear science and its applications. His contributions have also been recognized through invited lectures, keynote speeches, and memberships in esteemed scientific committees. Additionally, Prof. Kreiner has played a key role in advancing collaborative research efforts, earning recognition from academic institutions and research centers. His dedication to scientific progress, particularly in the medical and nuclear physics domains, has cemented his reputation as a leading figure in the field, with awards that reflect his impact on both science and society.

Research Skill

Prof. Andrés J. Kreiner possesses a diverse and advanced set of research skills, particularly in the fields of nuclear physics, accelerator technology, and medical applications such as Boron Neutron Capture Therapy (BNCT). His expertise includes the development and optimization of particle accelerators, neutron sources, and radiation detectors for scientific and medical purposes. He has extensive experience in experimental physics, computational modeling, and data analysis, which he applies to improve neutron-based therapies and nuclear instrumentation. His ability to integrate theoretical knowledge with practical applications has led to significant advancements in nuclear medicine and radiation technology. Additionally, Prof. Kreiner has strong collaborative and interdisciplinary research skills, working with scientists, engineers, and medical professionals to develop innovative solutions. His proficiency in scientific communication, project management, and grant writing has facilitated numerous successful research initiatives, making him a recognized leader in his field. His work continues to shape the future of nuclear and medical physics.

Conclusion

Andrés Juan Kreiner is an exceptionally strong candidate for the Best Researcher Award. His groundbreaking contributions in nuclear physics, accelerator technology, and medical applications, combined with his leadership in major scientific institutions, make him highly deserving. While adding more recent international recognitions and emphasizing his publication impact could further solidify his case, his vast experience and impact on both research and applied sciences position him as a top contender for this prestigious award.

Publications Top Noted

  • Title: Present status of accelerator-based BNCT
    Authors: AJ Kreiner, J Bergueiro, D Cartelli, M Baldo, W Castell, JG Asoia, …
    Year: 2016
    Citation: 169

  • Title: Study of atmospheric particulate matter in Buenos Aires city
    Authors: H Bogo, M Otero, P Castro, MJ Ozafrán, A Kreiner, EJ Calvo, RM Negri
    Year: 2003
    Citation: 143

  • Title: Concentrations and elemental composition of particulate matter in the Buenos Aires underground system
    Authors: LG Murruni, V Solanes, M Debray, AJ Kreiner, J Davidson, M Davidson, …
    Year: 2009
    Citation: 103

  • Title: Rotational structures in doubly odd 198Tl
    Authors: AJ Kreiner, M Fenzl, S Lunardi, MAJ Mariscotti
    Year: 1977
    Citation: 95

  • Title: Coriolis-Distorted Bands of Common g9/2 Parentage in Odd and Doubly Odd N= 41 Nuclei
    Authors: AJ Kreiner, MAJ Mariscotti
    Year: 1979
    Citation: 94

  • Title: Experimental and theoretical radiation damage studies on crystalline silicon solar cells
    Authors: M Alurralde, MJL Tamasi, CJ Bruno, MGM Bogado, J Plá, JF Vázquez, …
    Year: 2004
    Citation: 93

  • Title: High-spin states in doubly odd and signature inversion in structures
    Authors: MA Cardona, AJ Kreiner, D Hojman, G Levinton, ME Debray, M Davidson, …
    Year: 1999
    Citation: 77

  • Title: Accelerator-based BNCT
    Authors: AJ Kreiner
    Year: 2012
    Citation: 74

  • Title: Band structure in and the different coupling schemes in a deformed doubly odd nucleus
    Authors: AJ Kreiner, J Davidson, M Davidson, D Abriola, C Pomar, P Thieberger
    Year: 1987
    Citation: 69

  • Title: Induction and rejoining of DNA double strand breaks assessed by H2AX phosphorylation in melanoma cells irradiated with proton and lithium beams
    Authors: IL Ibañez, C Bracalente, BL Molinari, MA Palmieri, L Policastro, AJ Kreiner, …
    Year: 2009
    Citation: 67

  • Title: Evidence for Predicted Level Crossings in π ̃ h9/2 ⊗ ν ̃ i13/2 Bands in Very Neutron-Deficient, Doubly Odd T1 Isotopes
    Authors: AJ Kreiner, C Baktash, GG Bermudez, MAJ Mariscotti
    Year: 1981
    Citation: 67

  • Title: Structure in Tl 200 and the odd-even staggering in π ̃ h9/2 ⊗ ν ̃ i13/2 bands
    Authors: AJ Kreiner, MAJ Mariscotti, C Baktash, E Der Mateosian, P Thieberger
    Year: 1981
    Citation: 67

Zhe Li | Physics and Astronomy | Best Researcher Award

Published on by NESIN Awards

Prof. Zhe Li | Physics and Astronomy | Best Researcher Award

Astroparticle Physics at Institute of High Energy Physics, China

Prof. Zhe Li, an associate professor at the Institute of High Energy Physics (IHEP), Chinese Academy of Sciences, is a distinguished researcher in high-energy astrophysics and cosmic ray physics. With a Ph.D. in Physics from Chengdu University of Technology and postdoctoral experience at IHEP, he has significantly contributed to the Large High Altitude Air Shower Observatory (LHAASO) project. His expertise spans high-energy gamma-ray astrophysics, solar gamma-ray emissions, and cosmic ray observations, combining experimental data analysis with advanced Monte Carlo simulations. Prof. Li has authored numerous high-impact publications, including papers in Physical Review Letters and Science Bulletin, addressing critical topics such as dark matter constraints and gamma-ray production mechanisms. A leader in his field, he combines technical innovation with a commitment to advancing astrophysical knowledge. Prof. Li’s work continues to shape our understanding of cosmic phenomena and inspire progress in particle and astrophysics research.

Professional Profile 

Education

Prof. Zhe Li has a solid academic foundation in physics, culminating in a Ph.D. from Chengdu University of Technology, where he specialized in high-energy physics. His doctoral research laid the groundwork for his future contributions to astrophysics and cosmic ray studies. Following his Ph.D., he pursued postdoctoral research at the Institute of High Energy Physics (IHEP), Chinese Academy of Sciences, from 2013 to 2015. During this period, he honed his expertise in particle physics, focusing on advanced simulation techniques and experimental data analysis. Prof. Li’s educational journey reflects his commitment to pushing the boundaries of knowledge in physics, particularly in the realms of cosmic ray and gamma-ray studies. His rigorous training and research experience have equipped him with the analytical and technical skills essential for his groundbreaking work in high-energy astrophysics and his leadership in large-scale scientific collaborations like the LHAASO project.

Professional Experience

Prof. Zhe Li has an illustrious professional career centered at the Institute of High Energy Physics (IHEP), Chinese Academy of Sciences, where he has served as an associate professor since 2015. He is a core member of the Large High Altitude Air Shower Observatory (LHAASO) project, one of the world’s most advanced facilities for cosmic ray and gamma-ray research. His role involves pioneering work in cosmic ray physics, encompassing data analysis, experimental observation, and Monte Carlo simulations. Prof. Li’s expertise extends to the simulation and observation of solar gamma-ray emissions, advancing our understanding of high-energy astrophysical phenomena. His leadership in managing complex research tasks and contributing to cutting-edge discoveries has cemented his reputation as a leading scientist in high-energy astrophysics. Prof. Li’s professional journey reflects a steadfast commitment to innovation and excellence, with his work significantly influencing the field of particle astrophysics on a global scale.

Research Interest

Prof. Zhe Li’s research interests lie at the forefront of high-energy astrophysics, with a particular focus on gamma-ray and cosmic ray phenomena. His work explores the astrophysics of high-energy gamma rays, unraveling the mechanisms behind their production and their role in the universe’s most energetic processes. He is deeply engaged in studying solar gamma-ray emissions, employing simulations and observations to investigate the intricate interplay between cosmic rays and solar magnetic fields. His interests also encompass cosmic ray observation, where he contributes to the development and application of experimental techniques and advanced data analysis methods. As a key researcher in the LHAASO project, Prof. Li’s interests extend to the discovery and characterization of ultra-high-energy cosmic rays, providing insights into particle acceleration and the universe’s most extreme environments. His interdisciplinary approach integrates theoretical modeling, experimentation, and computational simulation, driving advancements in the understanding of cosmic phenomena.

Award and Honor

Prof. Zhe Li has received recognition for his groundbreaking contributions to high-energy astrophysics and cosmic ray physics. His role as a key scientist in the Large High Altitude Air Shower Observatory (LHAASO) project has garnered international acclaim, highlighting his impact on the study of ultra-high-energy cosmic rays and gamma-ray emissions. His significant publications, including articles in renowned journals such as Physical Review Letters and Science Bulletin, have positioned him as a thought leader in his field. While specific formal awards or honors are not listed, his sustained academic excellence, leadership in major scientific collaborations, and influence in advancing astrophysical research underscore his merit. Prof. Li’s work continues to inspire the scientific community, and his contributions are widely regarded as instrumental in pushing the boundaries of particle astrophysics, earning him respect and recognition as a leader in his domain.

Conclusion

Zhe Li is an outstanding candidate for the Best Researcher Award. His deep knowledge in high-energy astrophysics, leadership in significant collaborations, and impactful publications place him at the forefront of his field. While there are areas for improvement, particularly in terms of public outreach and broadening his research applications, his scientific achievements and contributions to global research initiatives make him a deserving recipient of this award.

Publications Top Noted

  • Title: Data quality control system and long-term performance monitor of LHAASO-KM2A
    Authors: Cao, Z., Aharonian, F., Axikegu, Zou, Y.C., Zuo, X.
    Year: 2025
    Citations: 1
  • Title: Measurement of attenuation length of the muon content in extensive air showers from 0.3 to 30 PeV with LHAASO
    Authors: Cao, Z., Aharonian, F., Axikegu, Zou, Y.C., Zuo, X.
    Year: 2024
    Citations: 0
  • Title: Detection of Very High-energy Gamma-Ray Emission from the Radio Galaxy M87 with LHAASO
    Authors: Cao, Z., Aharonian, F., Axikegu, Zou, Y.C., Zuo, X.
    Year: 2024
    Citations: 0
  • Title: Evidence for particle acceleration approaching PeV energies in the W51 complex
    Authors: Cao, Z., Aharonian, F., Axikegu, Zou, Y.C., Celli, S.
    Year: 2024
    Citations: 0
  • Title: LHAASO-KM2A detector simulation using Geant4
    Authors: Cao, Z., Aharonian, F., An, Q., Zhu, K.J., Zuo, X.
    Year: 2024
    Citations: 2
  • Title: Stringent Tests of Lorentz Invariance Violation from LHAASO Observations of GRB 221009A
    Authors: Cao, Z., Aharonian, F., Axikegu, Zou, Y.C., Zuo, X.
    Year: 2024
    Citations: 0
  • Title: Constraints on Ultraheavy Dark Matter Properties from Dwarf Spheroidal Galaxies with LHAASO Observations
    Authors: Cao, Z., Aharonian, F., An, Q., Zhu, K.J., Zuo, X.
    Year: 2024
    Citations: 0
  • Title: Discovery of Very High Energy Gamma-Ray Emissions from the Low-luminosity AGN NGC 4278 by LHAASO
    Authors: Cao, Z., Aharonian, F., Axikegu, Zou, Y.C., Zuo, X.
    Year: 2024
    Citations: 4
  • Title: Optimization of performance of the KM2A full array using the Crab Nebula
    Authors: Cao, Z., Aharonian, F., An, Q., Zhu, K.J., Zuo, X.
    Year: 2024
    Citations: 3
  • Title: Simulating gamma-ray production from cosmic rays interacting with the solar atmosphere in the presence of coronal magnetic fields
    Authors: Li, Z., Ng, K.C.Y., Chen, S., Nan, Y., He, H.
    Year: 2024
    Citations: 1