Joshua Benjamin | Physics | Best Researcher Award

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Mr. Joshua Benjamin | Physics | Best Researcher Award

Lagos Nigeria at TYDACOMM Nigeria Limited, Nigeria

benjamin, joshua olamide is a dedicated scholar and researcher passionate about space physics, ionospheric studies, and space weather. He holds a first-class degree in pure and applied physics from Ladoke Akintola University of Technology and a distinction in space physics from the African University of Science and Technology. With experience in RF network planning and optimization, teaching, and research, he combines technical expertise with strong analytical skills. Proficient in MATLAB, Microsoft Office, and data analysis tools, he is committed to innovation, leadership, and academic excellence. His research contributes to understanding ionospheric models and their impact on space weather. 🚀📡

Professional Profile

Education & Experience 🎓💼

  • [2022] MSc in Space Physics (Distinction) – African University of Science and Technology 📡
  • [2019] B.Tech in Pure and Applied Physics (First Class) – Ladoke Akintola University of Technology 🔬
  • [2023 – Present] RF Network Planning & Field Test Engineer – TYDACOMM Nigeria Limited 📶
  • [2020 – 2021] NYSC Mathematics & Economics Teacher – Jofegal International School 📚
  • [2018] Internship at Perfect Seven Solar Company – Solar System Maintenance ☀️
  • [2011 – 2012] Mathematics Teacher – Fountain of Knowledge Group of School 📏

Professional Development 📖🔍

benjamin, joshua olamide has actively participated in multiple international colloquiums and workshops related to space science, GNSS, and ionospheric studies. He has certifications in health, safety, and environment (HSE Levels 1-3) and has completed training in soft skills, entrepreneurship, and critical thinking. His involvement in research and development, coupled with hands-on experience in field testing, data collection, and RF network optimization, showcases his versatility. Passionate about academic excellence, he regularly engages in professional training, leadership roles, and mentorship programs to enhance his expertise in space physics and its applications. 🌍🛰️

Research Focus 🔬🌌

benjamin, joshua olamide specializes in ionospheric physics, space weather, and solar-terrestrial interactions. His research explores the global climatological performance of ionospheric models using Swarm satellite electron density measurements, evaluating their accuracy and implications for GNSS and communication systems. He has worked on latitudinal electron density profiles, comparing SWARM measurements with IRI models, and studying biophysics applications. His goal is to improve predictive models for space weather impacts on Earth, ensuring the safety and reliability of communication and navigation technologies. His research contributes to scientific advancements in space physics and atmospheric studies. 🌞🌍📡

Awards & Honors 🏆🎖️

  • [2022] Best Graduating Student – Institute of Space Science and Engineering 🏅
  • [2022] Best Graduating Student – Department of Space Physics 🏆
  • [2019] Akinrogun Trust Fund Award 💰
  • [2019] Best WAEC Result – New Era High School 🏅
  • [2007] One of the Best Junior WAEC Results – Greater Tomorrow College 🎓

Publication Top Notes

  1. “Investigation of the global climatologic performance of ionospheric models utilizing in-situ Swarm satellite electron density measurements”
    This paper was published in Advances in Space Research, Volume 75, Issue 5, pages 4274-4290, in 2025. The authors are:

    • D. Okoh
    • C. Cesaroni
    • J.B. Habarulema
    • Y. Migoya-Orué
    • B. Nava
    • L. Spogli
    • B. Rabiu
    • J. Benjamin

    The study offers a comprehensive investigation into the climatologic performance of three ionospheric models when compared to in-situ measurements from Swarm satellites. The models evaluated are the International Reference Ionosphere (IRI), NeQuick, and a 3-dimensional electron density model based on artificial neural network training of COSMIC satellite radio occultation measurements (3D-NN). The findings indicate that while all three models provide fairly accurate representations of the Swarm measurements, the 3D-NN model consistently performed better across various conditions.

  2. “Global Comparison of Instantaneous Electron Density Latitudinal Profiles from SWARM Satellites and IRI Model”
    This paper was published in Advances in Space Research in 2025. The authors are:

    • J.O. Benjamin
    • D.I. Okoh
    • B.A. Rabiu

    This study focuses on comparing instantaneous electron density latitudinal profiles obtained from Swarm satellites with predictions from the IRI model. The comparison aims to assess the accuracy of the IRI model in representing real-time electron density variations observed by the Swarm mission.

For full access to these publications, you may consider visiting the publisher’s website or accessing them through academic databases such as IEEE Xplore or ScienceDirect. If you are affiliated with an academic institution, you might have institutional access to these resources.

Conclusion

Benjamin, joshua olamide stands out as a promising researcher in space physics, with notable contributions to ionospheric studies, climatology models, and research-driven technological applications. His exceptional academic achievements, research output, leadership roles, and technical expertise position him as a deserving candidate for the Best Researcher Award.

Kods Oueslati | Quantum Science | Women Researcher Award

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Assoc. Prof. Dr. Kods Oueslati | Quantum Science | Women Researcher Award

Dr at  Institut Préparatoire aux Etudes d’Ingénieurs de Bizerte, Zarzouna, Tunisia.

Short Biography 🏅🔬

Dr. Kods Oueslati is an accomplished physicist and educator from Tunisia, currently serving as an Assistant Professor at the Preparatory Institute for Engineering Studies, Carthage. With a Ph.D. in Physics from the University of Monastir, Dr. Oueslati specializes in statistical physics, adsorption mechanisms, and environmental remediation. His research focuses on sustainable solutions for water purification using innovative adsorption techniques. A dedicated academic, he has contributed to policy development, curriculum improvement, and student mentorship. Fluent in Arabic, French, and English, he is also skilled in Neuro-Linguistic Programming (NLP) and scientific coaching, enhancing both research and teaching excellence. 📚💡

Professional Profile:

Scopus profile

Education & Experience 🎓📖

Ph.D. in Physics – University of Monastir (2021)
Master’s Degree in Physics – University of Tunis (2008)
Agregation Degree – Ecole Normale Supérieure, Tunis (2012)
Bachelor’s Degree in Physics – University of El-Manar, Tunisia (2009)

👨‍🏫 Assistant Professor in Physics – Preparatory Institute for Engineering Studies, Carthage (2020–Present)
👨‍🏫 Associate Professor in Physics – Preparatory Institute for Engineering Studies, Kairouan (2012–2020)
👨‍🏫 Physics Teacher – Ministry of Education, Tunisia (2009–2011)

Professional Development 📈🌍

Dr. Oueslati has actively contributed to the advancement of physics education through innovative teaching methods, research development, and curriculum design. He has conducted laboratory experiments to bridge theoretical and practical applications, fostering student engagement in STEM fields. His expertise in Neuro-Linguistic Programming (NLP) has enhanced his mentoring skills, helping students achieve academic excellence. As a researcher, he has published extensively in high-impact journals, focusing on adsorption mechanisms for water purification. He also participates in science-based extracurricular activities, promoting a hands-on learning approach. His work continues to drive sustainable solutions and scientific discoveries. 🔍🌿

Research Focus 🔬🌍

Dr. Oueslati’s research primarily revolves around statistical physics, adsorption mechanisms, and environmental sustainability. His studies focus on water remediation using low-cost and eco-friendly adsorbents like activated carbon derived from natural sources. He applies computational modeling and thermodynamic analysis to understand the adsorption behavior of dyes and pollutants, contributing to innovative purification techniques. His interdisciplinary approach integrates physics, chemistry, and environmental science to address global water pollution challenges. With publications in Q1 and Q2 journals, he has significantly advanced knowledge in wastewater treatment and sustainable material development. 🌱💧

Awards & Honors 🏆🎖

🏅 Best Research Publication Award – Recognized for high-impact publications in Journal of Molecular Liquids (2022)
🏅 Outstanding Contribution to Physics Education – Awarded for innovative teaching and curriculum development
🏅 Excellence in Research Award – Honored for groundbreaking adsorption mechanism studies
🏅 Distinguished Mentor Award – Recognized for exceptional student guidance and career development
🏅 Environmental Research Grant Recipient – Funded for work on sustainable water purification techniques 🌍💦

Publication Top Notes

📄 Title: Exploring Statistical Physics Principles for Superior Pefloxacin Extraction from Water via Halloysite Nanotubes: Stereographic and Topographic Evaluation
🖊 Authors: A. Naifar, K. Oueslati, F. Aouaini, A. Nadia, A. Ben Lamine
📅 Year: 2025
📚 Journal: Microporous and Mesoporous Materials

Bilal Ramzan | Physics | Best Researcher Award

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Dr. Bilal Ramzan | Physics and Astronomy | Best Researcher Award

Assistant Professor at University of Management and Technology Lahore Pakistan, Pakistan.

Dr. Bilal Ramzan is a distinguished astrophysicist and academic affiliated with the University of Agriculture, Faisalabad, Pakistan. As an HEC-approved Ph.D. supervisor, he has made significant contributions to the fields of astrophysics and space sciences. His research primarily focuses on cosmic rays, astrophysical plasma, and interstellar medium dynamics. With a strong academic background and extensive publication record, Dr. Ramzan has established himself as a leading researcher in his domain. He has collaborated with esteemed international scholars and presented his findings at global conferences. His work is widely cited, reflecting its impact on the scientific community. Dr. Ramzan is also deeply involved in mentoring young researchers, guiding them in theoretical and computational astrophysics. His dedication to advancing space sciences in Pakistan and beyond highlights his commitment to academic excellence and scientific discovery.

Professional Profile:

Education

Dr. Bilal Ramzan has a robust academic background, with a Ph.D. in Astronomy and Astrophysics from the Graduate Institute of Astronomy, National Central University, Taiwan, where he graduated in 2021 with a GPA of 3.4/4.0. He holds a Master’s degree in Physics from COMSATS Institute of Information and Technology, Lahore, Pakistan, completed in 2014, and a Bachelor’s degree in Physics from the same institution, obtained in 2011. Additionally, he pursued a Bachelor’s in Education from the University of Education, Lahore, in 2012. His early education includes pre-engineering studies at Nishtar College for Boys, Lahore, and matriculation from Nishtar School for Boys. His strong educational foundation in physics and astrophysics has equipped him with the necessary knowledge and skills to contribute significantly to space sciences and interstellar research.

Professional Experience

Dr. Bilal Ramzan is currently affiliated with the University of Agriculture, Faisalabad, Pakistan, where he serves as a researcher and academic mentor. His role as an HEC-approved Ph.D. supervisor enables him to guide doctoral candidates in cutting-edge astrophysical research. He has an extensive research background in cosmic-ray physics, astrophysical fluid dynamics, and magnetohydrodynamics. Dr. Ramzan has actively participated in numerous international conferences, presenting his findings on cosmic-ray-driven outflows and galactic evolution. His experience extends to collaborative projects with leading space research institutes, where he has contributed to numerical simulations and theoretical modeling of interstellar phenomena. His expertise is sought after for peer reviews, and he serves as a referee for reputed scientific journals in astrophysics. His professional career is marked by a commitment to scientific innovation, interdisciplinary collaboration, and academic leadership.

Research Interest

Dr. Bilal Ramzan’s research interests lie in the study of cosmic rays, astrophysical plasmas, interstellar medium dynamics, and space weather phenomena. He explores the impact of cosmic rays on galactic evolution, particularly in the formation of outflows and winds. His work delves into the behavior of astrophysical fluids under extreme conditions, utilizing magnetohydrodynamic (MHD) models to simulate cosmic-ray interactions. Dr. Ramzan is also interested in the applications of deep learning and quantum computing in astrophysics, focusing on algorithmic approaches to understanding space-time structures such as wormholes. His research integrates computational astrophysics with observational data, aiming to provide deeper insights into cosmic-ray propagation and the thermodynamic behavior of interstellar clouds. Through his studies, he seeks to unravel the fundamental mechanisms governing high-energy astrophysical processes.

Research Skills

Dr. Bilal Ramzan possesses advanced research skills in numerical simulations, theoretical modeling, and data analysis in astrophysics. His expertise in magnetohydrodynamics (MHD) allows him to develop computational models for cosmic-ray interactions and plasma dynamics. He is proficient in coding and utilizing high-performance computing techniques to simulate astrophysical environments. Dr. Ramzan is skilled in analyzing observational data from space telescopes and ground-based observatories, correlating theoretical models with real-world astronomical phenomena. His familiarity with deep learning and quantum algorithms enables him to explore innovative approaches in astrophysical research. He also has strong technical writing skills, with a track record of publishing in high-impact scientific journals. His ability to synthesize complex theoretical concepts into tangible research findings showcases his analytical acumen and scientific rigor.

Awards and Honors

Dr. Bilal Ramzan has received multiple recognitions for his contributions to astrophysical research. He has been invited to present his work at prestigious international conferences, including the COSPAR Scientific Assemblies and ASROC Meetings. His publications in renowned journals such as Astrophysical Journal, Astronomy & Astrophysics, and Scientific Reports reflect the high quality and impact of his research. His contributions to understanding cosmic-ray-driven outflows have been acknowledged by the scientific community, leading to collaborative opportunities with leading researchers. As an HEC-approved Ph.D. supervisor, he has also been recognized for his role in mentoring young scientists and advancing astrophysical research in Pakistan. His work continues to shape the field, earning him accolades for scientific excellence and academic leadership.

Publication Top Notes

  1. Galactic outflows in different geometries
    • Authors: Majeed, U., Ramzan, B.
    • Year: 2025
  2. A fluid approach to cosmic-ray modified shocks
    • Authors: Ramzan, B., Qazi, S.N.A., Salarzai, I., Rasheed, A., Jamil, M.
    • Year: 2024
    • Citations: 1
  3. The formation of invariant optical soliton structures…
    • Authors: Faridi, W.A., Iqbal, M., Ramzan, B., Akinyemi, L., Mostafa, A.M.
    • Year: 2024
    • Citations: 18
  4. Magnetoacoustics and magnetic quantization of Fermi states in relativistic plasmas
    • Authors: Iqbal, A., Rasheed, A., Fatima, A., Ramzan, B., Jamil, M.
    • Year: 2024
  5. Deep learning and quantum algorithms approach to investigating the feasibility of wormholes: A review
    • Authors: Rahmaniar, W., Ramzan, B., Ma’arif, A.
    • Year: 2024
    • Citations: 1
  6. Determination of the optical properties of tungsten trioxide thin film…
    • Authors: Adnan, M., Jamil, M.I., Ramzan, B., Ahmad, A., Ghani, M.U.
    • Year: 2024
  7. Propagation of dust lower hybrid wave in dusty magneto dense plasma…
    • Authors: Yaseen, A., Mir, Z., Ramzan, B.
    • Year: 2024
  8. Continuous solutions of cosmic-rays and waves in astrophysical environments
    • Authors: Irshad, K., Ramzan, B., Qazi, S.N.A., Rasheed, A., Jamil, M.
    • Year: 2023
    • Citations: 1
  9. Transonic plasma winds with cosmic-rays and waves
    • Authors: Ramzan, B., Mir, Z., Rasheed, A., Jamil, M.
    • Year: 2023
    • Citations: 2
  10. Kelvin-Helmholtz instability in magnetically quantized dense plasmas
  • Authors: Rasheed, A., Nazir, A., Fatima, A., Kiran, Z., Jamil, M.
  • Year: 2023

Conclusion

Dr. Bilal Ramzan’s remarkable contributions to astrophysics, his extensive publication record, and his commitment to academic mentorship make him a strong contender for the Best Researcher Award. His expertise in cosmic rays, space plasmas, and astrophysical fluid dynamics is evident in his high-impact research and international collaborations. His ability to integrate computational techniques with observational astrophysics highlights his innovative approach to scientific inquiry. While his achievements are significant, continued interdisciplinary collaborations and the pursuit of larger research grants could further enhance his influence in the field. Overall, Dr. Ramzan stands out as a leading researcher whose work is shaping the future of space science.

Yang Han | Condensed Matter Physics | Best Researcher Award

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Prof Dr.Yang Han | Condensed Matter Physics | Best Researcher Award

Google Scholar Profile

Orcid Profile

Educational Details:

Yang Han completed her Ph.D. in 2014 from Nanjing University, China. Following her doctorate, she pursued postdoctoral research at RWTH Aachen University, Germany, from 2014 to 2016, where she focused on [research focus, e.g., materials science, mechanical properties, etc.]. She then continued her postdoctoral work at the University of Lorraine, France, from 2016 to 2018, concentrating on [research focus, e.g., thermoelectric properties, molecular dynamics simulations, etc.]. With a strong background in first-principles calculations and numerical simulations, she now serves as a professor and Ph.D. supervisor at Harbin Engineering University.

Research and Innovations:

Yang Han has made significant contributions to the fields of material science and computational modeling, particularly through her innovative research using numerical simulations to understand the mechanical, thermal transport, electronic, magnetic, and thermoelectric properties of advanced materials. Her groundbreaking work has centered on the following key research innovations:

  1. Topological Defects and Heterojunctions in 3D Graphene Structures: Through the support of the National Natural Science Foundation of China (Project No. 12104111), Yang’s research has provided vital insights into the stability and physical properties of three-dimensional graphene structures. By exploring the influence of topological defects and heterojunctions, her research has enhanced the understanding of how these factors contribute to material performance, with potential applications in advanced electronics and nanotechnology.
  2. Natural Gas Hydrate Self-Protection Mechanisms: Under the Basic Research Funds for Central Universities, Yang’s research on natural gas hydrates has delved into the microscopic mechanisms that enable these structures to self-protect, which has crucial implications for energy storage and environmental sustainability. Her molecular dynamics simulations have uncovered novel pathways for optimizing the extraction and stability of natural gas hydrates.
  3. Combustible Ice Formation Mechanism: Another major contribution is her simulation study on the formation mechanism and physical properties of combustible ice. This research, funded by Central Universities’ Free Exploration Support Program, sheds light on the potential of combustible ice as a future energy source by providing a detailed understanding of its formation at the molecular level.
  4. Thermal Conductivity in Carbon Honeycomb Structures: At RWTH Aachen University, Yang’s work using high-performance computing resources has advanced the understanding of how tensile strain impacts the thermal conductivity of carbon-based materials. This research has potential implications for the development of advanced materials with tailored thermal properties for use in electronics and energy systems.
  5. Ab initio Calculations for Predicting Thermal Materials: Yang’s predictive models using ab initio calculations to discover new thermal materials have been pivotal in the design and application of next-generation materials with enhanced heat conduction properties. This project at RWTH Aachen University led to the development of methods that could revolutionize industries ranging from electronics to aerospace by providing better materials for thermal management.

These research innovations demonstrate Yang HAN’s pioneering contributions to material science, leveraging cutting-edge computational techniques to solve complex problems with wide-ranging impacts across multiple scientific and industrial domains.

Research Interest: 

Yang Han research focuses on utilizing numerical simulations to investigate the formation mechanisms and physical properties of natural gas hydrates. Her work delves into understanding how these hydrates form and stabilize at the molecular level, which has significant implications for energy storage and environmental applications. By employing molecular dynamics simulations, she provides crucial insights into the self-preservation behaviors of natural gas hydrates, aiding in their practical extraction and use as alternative energy sources.

Additionally, Yang has made substantial contributions to the study of the mechanical, thermal, electronic, magnetic, and thermoelectric properties of materials. Using a combination of first-principles calculations, molecular dynamics simulations, and analytical models, her research investigates how various materials behave under different physical conditions. This includes exploring their conductivity, structural stability, and magnetic properties, which are essential for designing advanced materials for electronics, thermoelectric devices, and other high-performance applications. Her multi-disciplinary approach is instrumental in advancing the field of material science, offering potential innovations across a wide range of industries.

Contributions: 

Yang Han is a seasoned researcher with over 10 years of experience in the field of numerical simulations, specializing in the mechanical, thermal transport, electronic, magnetic, and thermoelectric properties of materials. Her work primarily involves first-principles calculations and molecular dynamics simulations, which allow her to explore and predict the behavior of materials under various conditions. Her research also extends to water clathrate structures, such as methane hydrate, which have significant implications for energy storage and environmental conservation.

Yang’s academic contributions include 29 SCI-indexed papers, with two of her publications being specially highlighted by the editorial office of Nanotechnology and one chosen as a SCIlight by the Journal of Applied Physics. These recognitions underscore the impact and innovation of her work in material science, particularly in advancing the understanding of material properties for real-world applications in energy and technology.

Top Notable Publications

Rapid growth of CO2 hydrate as a promising way to mitigate the greenhouse effect
Authors: S. Jia, L. Yang, Y. Han, T. Zhang, X. Zhang, P. Gong, S. Du, Y. Chen, J. Ding
Year: 2024
Journal: Materials Today Physics, Article No. 101548
Citations: Not yet available (2024 publication)

Buckling Hydrogenated Biphenylene Network with Tremendous Stretch Extent and Anomalous Thermal Transport Properties
Authors: X. Zhang, M. Poulos, K. Termentzidis, Y. Han, D. Zhao, T. Zhang, X. Liu, S. Jia
Year: 2024
Journal: The Journal of Physical Chemistry C, 128 (13), 5632-5643
Citations: Not yet available (2024 publication)

Ferroelectricity of ice nanotube forests grown in three-dimensional graphene: the electric field effect
Authors: T. Zhang, Y. Han, C. Luo, X. Liu, X. Zhang, Y. Song, Y. T. Chen, S. Du
Year: 2024
Journal: Nanoscale, 16 (3), 1188-1196
Citations: 2

DFT characterization of a new possible two-dimensional BN allotrope with a biphenylene network structure
Authors: Y. Han, T. Hu, X. Liu, S. Jia, H. Liu, J. Hu, G. Zhang, L. Yang, G. Hong, Y. T. Chen
Year: 2023
Journal: Physical Chemistry Chemical Physics, 25 (16), 11613-11619
Citations: 5

Modulating thermal transport in a porous carbon honeycomb using cutting and deformation techniques
Authors: Y. Han, C. Zhao, H. Bai, Y. Li, J. Yang, Y. T. Chen, G. Hong, D. Lacroix, M. Isaiev
Year: 2022
Journal: Physical Chemistry Chemical Physics, 24 (5), 3207-3215
Citations: 1

Stretched three-dimensional white graphene with a tremendous lattice thermal conductivity increase rate
Authors: Y. Han, Y. Liang, X. Liu, S. Jia, C. Zhao, L. Yang, J. Ding, G. Hong
Year: 2022
Journal: RSC Advances, 12 (35), 22581-22589
Citations: 3

Condition monitoring and performance forecasting of wind turbines based on denoising autoencoder and novel convolutional neural networks
Authors: X. Jia, Y. Han, Y. Li, Y. Sang, G. Zhang
Year: 2021
Journal: Energy Reports, 7, 6354-6365
Citations: 37

Prediction of equilibrium conditions for gas hydrates in the organic inhibitor aqueous solutions using a thermodynamic consistency-based model
Authors: S. Li, Y. Li, L. Yang, Y. Han, Z. Jiang
Year: 2021
Journal: Fluid Phase Equilibria, 544, 113118
Citations: 15

Tailoring the activity of NiFe layered double hydroxide with CeCO3OH as highly efficient water oxidation electrocatalyst
Authors: J. Ding, Y. Han, G. Hong
Year: 2021
Journal: International Journal of Hydrogen Energy, 46 (2), 2018-2025
Citations: 14