Prashant Thakur | Experimental methods | Best Researcher Award

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Assist. Prof. Dr. Prashant Thakur | Experimental methods | Best Researcher Award

Assistant Professor at Career Point University, Hamirpur | India

Dr. Prashant Thakur is an Assistant Professor in the Department of Physics and the Nodal Officer at the Center for Green Energy Research (CGER) at Career Point University, Hamirpur, Himachal Pradesh, India. He is ranked among the Top 0.5% of Researchers Worldwide (2024) by ScholarGPS®, California, US. His expertise lies in Materials Physics, particularly in superparamagnetic lanthanide-doped Mn-Zn ferrite nanoparticles. He has published 22 research articles and holds a patent titled “Superparamagnetic Nanoparticles and Method for Preparation Thereof”. Dr. Thakur has actively contributed to the development of environmentally sustainable technologies in the fields of nanomaterials and green energy.

👨‍🎓Profile

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🎓Education

Dr. Thakur earned his Ph.D. in Materials Physics from Jaypee University of Information Technology, Solan in 2019. He also holds a B.Ed. in Teaching Science and Maths from HP University, Shimla (2014), an M.Sc. in Materials Physics from Shoolini University, Solan (2013), and a B.Sc. in Non-Medical from HP University, Shimla (2011). His education laid a strong foundation in physics and material sciences, preparing him for groundbreaking research in nanomaterials, magnetism, and energy solutions.

🏢Professional Experience

Dr. Thakur is currently serving as an Assistant Professor at Career Point University, Hamirpur. He previously worked as an Assistant Professor in the Department of Physics at Akal College of Basic Sciences, Eternal University (Feb 2019 – Feb 2021). He has also been a Teaching Assistant in the Department of Physics and Materials Science at Jaypee University of Information Technology, Solan, from Aug 2014 – Nov 2018. His academic roles have involved teaching materials physics and guiding research in nanomaterials, particularly superparamagnetic nanoparticles and magnetic ferrites.

🏆Awards and Honors

Dr. Thakur has been ranked among the Top 0.5% of Researchers Worldwide (2024) by ScholarGPS®, USA, a prestigious recognition. He has also received the Best Poster Presentation Award at a National Conference at Shoolini University (2013). Additionally, he has been honored as a Resource Person at the e-workshop on “Materials and their Characterization” at Maharaja Agrasen University, H.P. in 2021. Dr. Thakur’s work has earned him multiple accolades and has significantly contributed to the scientific community.

🧠Research Focus

Dr. Prashant Thakur’s research focuses on the synthesis and characterization of nanomaterials for applications in magnetic materials, environmental remediation, and energy storage. His key interests include superparamagnetic lanthanide-doped Mn-Zn ferrites and their potential in magnetic and electromagnetic applications. His work on bismuth-doped barium hexaferrites and green-synthesized nanoparticles for antimicrobial and photocatalytic applications demonstrates his dedication to sustainable technology. Dr. Thakur is also engaged in exploring green energy solutions to contribute to a cleaner environment.

🔬Research Skills

Dr. Thakur possesses a diverse set of research skills in nanomaterials synthesis, X-ray diffraction, magnetic characterization, and optical properties analysis. He is highly skilled in microwave sintering, sol-gel processes, and citrate sol-gel methods for the development of ferrites and nanoparticles. His expertise in structural and morphological analysis using tools like SEM, TEM, and XPS further enhances his ability to investigate the properties of advanced materials. He also possesses deep experience in electromagnetic shielding, photocatalysis, and environmental applications of nanomaterials, contributing significantly to sustainable material science.

Publications Top Notes

Efficient removal of toxic dyes from water using Mn3O4 nanoparticles: Synthesis, characterization, and adsorption mechanisms

  • Authors: Kamal Kishore, Jaswinder Kaur, Yasser B. Saddeek, Meenakshi Sharma, Manpreet Singh, Prashant Thakur, Dr. Yogesh Kumar Walia, Madan Lal, R. Suman, A.S. Reddy, et al.
    Journal: Journal of Molecular Structure
    Year: 2025

Green synthesized Fe‐doped ZnO NPs using aloe vera gel: Antimicrobial, structural, optical and magnetic properties

  • Authors: Shreya Chauhan, Prashant Thakur, Kamal Kishore, Madan Lal, Pankaj Sharma
    Journal: Journal of the American Ceramic Society
    Year: 2025

Optimized electromagnetic shielding properties using bismuth-doped barium hexaferrite nanoparticles

  • Authors: Neha Thakur, Indu Sharma, Prashant Thakur, Khalid Mujasam Batoo, Sagar E. Shirsath, Gagan Kumar
    Journal: Polyhedron
    Year: 2025

Enhanced photocatalytic and antimicrobial properties of nickel-doped barium M-type hexaferrites synthesized via citrate sol-gel method

  • Authors: Indu Sharma, Neha Thakur, Yasser A.M. Ismail, K.A. Aly, Pankaj Sharma, K.M. Batoo, Prashant Thakur
    Journal: Inorganic Chemistry Communications
    Year: 2024

Improved magneto-dielectric response and dielectric characteristics of rare earth doped Ba and Co based U-type hexaferrite

  • Authors: Indu Sharma, Sunil Sharma, Prashant Thakur, Sumit Bhardwaj, Munisha Mahajan, Shubhpreet Kaur, Gagan Anand, Rohit Jasrotia, A Dahshan, H.I. Elsaeedy, Pankaj Sharma, Gagan Kumar
    Journal: Materials Chemistry and Physics
    Year: 2024

Olfa Turki | Experimental methods | Best Researcher Award

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Assist. Prof. Dr. Olfa Turki | Experimental methods | Best Researcher Award

Faculty of Sciences , Tunisia

Olfa Turki is an accomplished Assistant Professor at FST with a deep expertise in Physics, particularly in materials science and piezoelectric nanocomposites. With a PhD in Physics and a Master’s in Condensed Matter Physics, Olfa has built a robust academic career. She has contributed extensively to the development of lead-free ceramics and nanocomposites for sensor technologies. Olfa is also an active participant in international research projects and has presented her findings at numerous conferences worldwide. Beyond academics, she is committed to societal development, having been a candidate in municipal elections in Sfax in 2022. Her research bridges the gap between theoretical studies and practical applications in energy storage and sensors.

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🎓Education 

Olfa Turki holds a PhD in Physics from 2017, focusing on materials science, specifically piezoelectric nanocomposites. She completed her Master’s Degree in Condensed Matter Physics in 2013, which provided her with a strong foundation in solid-state physics. Her academic journey began with a Bachelor’s Degree in Physics in 2011, where she gained the knowledge that underpins her later research. Olfa’s educational background is complemented by her Baccalaureate in Mathematics from 2008, which further sharpened her analytical and problem-solving skills. Throughout her studies, Olfa has demonstrated a passion for scientific inquiry and a commitment to advancing knowledge in materials physics. Her academic qualifications are paired with hands-on experience in various scientific programs like Origin and Fullprof, enhancing her ability to analyze and present research data effectively. Olfa’s education continues to shape her innovative approach to solving complex scientific problems.

🏢Professional Experience 

Olfa Turki has accumulated a wealth of experience in teaching and research. She currently serves as an Assistant Professor at the Faculty of Sciences of Tunis (FST), where she teaches physics and conducts cutting-edge research. Olfa has also held contractual assistant positions at various institutions, including the Institute of Physics and Engineering (IPEIS) and the Institute of Information and Communication Technologies (ISGI), from 2015 to 2023. In these roles, she gained extensive experience in curriculum development, lecturing, and mentoring students. Olfa’s practical involvement in research is equally impressive, with significant contributions to projects on sensor autonomy and nanocomposite development. She has worked on national and international projects, collaborating with leading scientists in the field. Olfa has presented her work at various prestigious scientific conferences, both orally and in posters, solidifying her position as a respected researcher in her field.

🏆Awards and Honors

Olfa Turki has been recognized for her outstanding contributions to the field of material science and physics. While no formal awards are mentioned, her significant achievements in research, publications, and conference participation place her in high regard within the scientific community. Her work on piezoelectric nanocomposites and their application in sensor technologies has garnered attention, as evidenced by her numerous publications in high-impact journals such as Applied Surface Science and Ceramics International. In addition, Olfa’s involvement in international research programs like the AUF Research Support Program further highlights her scientific stature. Olfa’s role in municipal elections demonstrates her recognition as a leader in both academia and community involvement. Her ability to balance these responsibilities while maintaining a high standard of academic and research excellence showcases her dedication, which is often celebrated by her peers and colleagues.

🌍Research Focus 

Olfa Turki’s research focuses primarily on the development of lead-free ceramics and piezoelectric nanocomposites. Her work aims to improve the dielectric, ferroelectric, and electrocaloric properties of these materials, making them ideal candidates for use in sensor technologies, energy storage, and nanogenerators. Olfa has conducted in-depth studies on the effects of doping and substitution of various elements, such as lanthanides, to enhance the functional properties of ferroelectric ceramics. Her research has a direct application in creating more sustainable and efficient materials, particularly in the realm of green technologies. Moreover, Olfa explores the structural properties and microstructure of nanocomposites, offering innovative approaches for material synthesis and processing. Her recent international collaboration, NAPES, explores the development of nanocomposites for pressure sensors and energy harvesting, positioning her research at the intersection of advanced material science and applied technologies.

🧠Research Skills

Olfa Turki possesses a strong set of research skills that complement her work in materials science. She is proficient in using scientific programs such as Origin and Fullprof, tools that allow her to analyze complex data and model materials’ behavior. Olfa’s expertise in synthesis techniques, particularly sol-gel hydrothermal synthesis, enables her to create high-performance materials like piezoelectric nanocomposites and lead-free ceramics. Her ability to analyze and interpret dielectric, ferroelectric, and piezoelectric properties is a cornerstone of her research. Olfa is also adept in presenting her findings through oral and poster presentations at conferences, enhancing her scientific communication skills. Furthermore, she collaborates well within interdisciplinary teams and takes an active role in mentoring students, promoting research development. Her work is continually evolving, supported by her ability to stay updated on the latest scientific advancements and her commitment to collaborative research across international platforms.

Publications Top Notes

Sol-gel hydrothermal synthesis of lead-free BT nanoparticles for enhanced dielectric properties in PVDF nanocomposites

  • Authors: O. Turki, A. Slimani, S. Boufid, L. Seveyrat, V. Perrin, R. Ben Hassen, H. Khemakhem
    Journal: Applied Surface Science
    Year: 2025

Electrical, ferroelectric and electro-caloric properties of lead-free Ba₀.₈₅Ca₀.₁₅Ti₀.₉₅(Nb₀.₅Yb₀.₅)₀.₀₅O₃ multifunctional ceramic

  • Authors: I. Zouari, A. Dahri, O. Turki, V. Perrin, L. Seveyrat, Z. Sassi, N. Abdelmoula, H. Khemakhem, W. Dimassi
    Journal: Ceramics International
    Year: 2024

The effect of Erbium on physical properties of the BaCaTi(NbYb)O multifunctional ceramic

  • Authors: I. Zouari, O. Turki, L. Seveyrat, Z. Sassi, N. Abdelmoula, H. Khemakhem
    Journal: Applied Physics A
    Year: 2023

Ferroelectric Properties and Electrocaloric Effect in Dy₂O₃ Substitution on Lead‑Free NBT-6BT Ceramic

  • Authors: O. Turki, A. Slimani, I. Zouari, L. Seveyrat, Z. Sassi, H. Khemakhem
    Journal: Journal of Electronic Materials
    Year: 2022

Improved dielectric, ferroelectric, and electrocaloric properties by Yttrium substitution in NBT-6BT based ceramics

  • Authors: O. Turki, F. Benabdallah, L. Seveyrat, Z. Sassi, V. Perrin, H. Khemakhem
    Journal: Applied Physics A
    Year: 2022

 

 

 

Rajeshree Shinde | Experimental methods | Best Researcher Award

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Dr. Rajeshree Shinde | Experimental methods | Best Researcher Award

Sir Vithaldas Thackersey College of Home Science (Empowered Autonomous Status) | India

Dr. Rajeshree Amit Shinde is an Assistant Professor at Sir Vithaldas Thackersey College of Home Science, SNDTWU, Mumbai, with extensive experience in the field of chemistry and education. She has been actively involved in both teaching and administrative responsibilities at various academic levels since 2008. Dr. Shinde is deeply engaged in curriculum development, academic policy, and research. Additionally, she is a coordinator for several committees and has contributed significantly to the quality assurance process at her institution. She is passionate about interdisciplinary learning and has made notable contributions to the integration of science with real-world applications. Dr. Shinde’s research interests span drug-PNP interactions, protein stability, and physicochemical properties of osmolytes.

👨‍🎓Profile

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🎓Education

Dr. Shinde earned her Ph.D. in Chemistry from the Indian Institute of Technology (IIT) Bombay (2013-2018) under the supervision of Prof. Nand Kishore, focusing on the physicochemical properties of amino acids. She completed her M.Sc. in Chemistry at IIT Bombay (2006-2008), where she demonstrated exceptional academic aptitude with a 7.91 CPI. She also earned her B.Sc. in Chemistry from KET’s V.G. Vaze College, Mumbai, graduating with an impressive 84%. Dr. Shinde has always excelled in her academic journey, from HSC to S.S.C, receiving commendable marks. She has shown significant commitment to continuous professional development through various workshops, training programs, and certifications, including MOOCs and FDPs on topics related to science and education.

🏢Professional Experience

Dr. Shinde has over 15 years of experience in the academic field. Currently, she serves as an Assistant Professor at Sir Vithaldas Thackersey College of Home Science, SNDT Women’s University, since 2010. Prior to this, she was an Assistant Professor at KET’s V.G. Vaze College, Mumbai, from 2008-2009. Throughout her career, Dr. Shinde has undertaken several academic responsibilities, including being a member of the Academic Council, UG Ad-hoc Board of Studies, and a special invitee for the Board of Studies for the Food, Nutrition, and Dietetics Department at her current institution. She has also been involved in the design and development of innovative syllabi for diverse courses. Dr. Shinde has been instrumental in guiding M.Sc. students, shaping the next generation of researchers, and playing a pivotal role in institutional governance.

🏆Awards and Honors

Dr. Shinde’s career is distinguished by several accolades. In 2018, she was the winner of the cartoon competition during Vigilance Awareness Week at IIT Bombay. She has also contributed to national and international journals, with several publications in high-impact research areas such as physicochemical properties of amino acids and quantum dots as antimicrobial agents. Dr. Shinde has actively participated in conferences, workshops, and seminars, presenting her research findings in multiple oral and poster presentations, including those at the Mega Conclave Mission Millets in 2023. Her leadership was recognized in organizing multiple events, including the YUVA Mahotsav and regional seminars. She has also served as an examiner for Ph.D. theses, further cementing her role in the academic community.

📚Research Focus

Dr. Rajeshree Shinde’s research primarily explores drug-PNP interactions, the physicochemical properties of osmolytes, and their impact on protein stability. Her Ph.D. thesis focused on the synergistic effects of amino acids on protein stability, which provides insights into the behavior of osmolytes and biomolecules in various solutions. Dr. Shinde’s expertise includes utilizing advanced instrumental techniques such as UV-VIS spectrophotometry, fluorescence spectrophotometry, and isothermal titration calorimetry. Additionally, her ongoing projects investigate the nutritional efficacy of millets and moringa leaves powder as food fortificants. Dr. Shinde’s interdisciplinary approach combines chemistry with nutrition, making her work relevant to the development of functional foods and dietary interventions. She is actively engaged in research collaborations and has secured research grants for projects on energy bars and protein nanoparticle applications.

🧠Research Skills 

Dr. Rajeshree Amit Shinde is proficient in a range of instrumental techniques that support her research in chemistry and food science. Her expertise includes UV-VIS Spectrophotometry, Fluorescence Spectrophotometry, Isothermal Titration Calorimetry, Circular Dichroism, and High-Performance Liquid Chromatography (HPLC), among others. She has also conducted extensive work with Infrared Spectroscopy to analyze molecular structures and interactions. These techniques enable her to probe the thermodynamic and conformational behavior of proteins in the presence of osmolytes, which is central to her research. Dr. Shinde is skilled in data analysis, utilizing tools like Google Sheets for compiling research data, particularly in the context of AQAR submissions and research publications. Her research not only emphasizes chemical analysis but also integrates interdisciplinary approaches, combining food science, biochemistry, and sustainability, to develop functional food solutions with practical applications.

 

Noureddine Bouguila | Experimental methods | Best Researcher Award

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Mr. Noureddine Bouguila | Experimental methods | Best Researcher Award

Faculté des Sciences de Gabès | Tunisia

Mr. Noureddine Bouguila is an Associate Professor at the Faculty of Sciences of Gabes, Gabes University, Tunisia. He specializes in condensed matter physics, with a focus on thin films and their applications in photovoltaics, optoelectronics, gas sensors, photocatalysis, and biological fields. Bouguila obtained his PhD in 2000 from Tunis El Manar University and has since built a distinguished career both in academia and research. He has contributed significantly to the scientific community, particularly through his leadership roles and collaborative research efforts.

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Early Academic Pursuits 🎓

Mr. Bouguila began his academic journey at Tunis El Manar University, where he earned his Bachelor’s degree in Physical Sciences in 1987. His pursuit of higher education led him to an Advanced Studies Diploma in condensed matter in 1992, followed by a PhD in 2000, where he focused on indium trisulfide (In2S3) layers for photovoltaic applications. His doctoral research was highly praised, earning the distinction of “Very Honorable with Jury Congratulations.”

Professional Endeavors 🏛️

Throughout his career, Bouguila has held various important roles within the academic and scientific communities. He was the Head of the Physics Department at the Faculty of Sciences of Gabes for two terms (2011–2014, 2017–2020), as well as a member of the Scientific Council of the university for three terms (2011–2014, 2017–2020, 2020–2023). His professional tenure showcases his leadership and dedication to advancing the academic environment at Gabes University.

Contributions and Research Focus 🔬

Bouguila’s research contributions are significant, particularly in the area of sprayed thin films. His work on In2S3, ZnS, and In2O3 thin films has broad applications, including in gas sensors, photoconductivity, and solar energy. His innovative approach to spray deposition techniques and the optimization of material properties for energy applications marks a substantial advancement in material science and renewable energy technologies. His research has led to several influential publications in renowned journals such as J. Phys. III France and Renewable Energy.

Impact and Influence 🌍

Bouguila’s work has had a profound impact on both academic research and practical applications. His studies on thin films contribute to the advancement of renewable energy technologies and sustainable materials. Additionally, his multidisciplinary approach has facilitated the integration of physics with other fields like biology and environmental sciences, demonstrating the broad relevance and applicability of his research.

Academic Cites 📑

Bouguila’s research is highly cited in the scientific community, reflecting the importance and impact of his work. Notable articles include his studies on the properties of In2S3 films in The European Physical Journal Applied Physics (2013), and his collaboration on CuInS2 films in Renewable Energy (1999). These publications showcase his expertise in material science, solar energy applications, and nanotechnology.

Research Skills 🔍

Bouguila’s research encompasses a wide range of experimental techniques, including thin film deposition, material characterization, and the optimization of semiconductor properties. His spray pyrolysis method has been central to his research, particularly in enhancing the structural and morphological properties of semiconductor layers. His interdisciplinary approach highlights his proficiency in physics, materials science, and engineering.

Teaching Experience 📚

Bouguila has extensive teaching experience at both the Bachelor’s and Master’s levels. He has taught a broad array of physics courses including mechanics, quantum mechanics, optics, thermodynamics, and optoelectronics. Bouguila is also recognized for his practical work coordination and for developing innovative physics manuals that help students better understand complex physical concepts. His pedagogical skills contribute significantly to the academic development of students at Gabes University.

Awards and Honors 🏆

Bouguila has received multiple accolades throughout his career, including a “Very Honorable” distinction for his PhD work and a “Very Honorable with Jury Congratulations” recognition for his advanced studies diploma. These awards reflect his exceptional research skills and contributions to the scientific community. His ability to lead in research, combined with his academic recognition, strengthens his standing in the field.

Legacy and Future Contributions 🌱

Bouguila’s work has established a strong academic and scientific legacy at Gabes University, where his contributions to material science and thin film technologies continue to influence emerging research. Looking ahead, Bouguila plans to expand his research into cutting-edge areas like nanotechnology, artificial intelligence in material design, and renewable energy innovations. His ongoing work promises to leave a lasting impact on both science and technology, further bridging the gap between academic research and real-world applications.

Publications Top Notes

 

 

Abid Hussain | Experimental methods | Best Researcher Award

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Dr. Abid Hussain | Experimental methods | Best Researcher Award

Govt. Degree College Kargil, Ladakh | India

Dr. Abid Hussain is a highly skilled Assistant Professor at the University of Ladakh, India, specializing in Physics, particularly in the domain of Materials Science. He completed his Ph.D. in Physics from the Inter-University Accelerator Center (IUAC), New Delhi, with a thesis on “Radiation Response of Single-Phase Multicomponent Transition Metal-Based Alloys”. Abid’s work spans several facets of materials science, including high-entropy alloys, radiation damage studies, and the development of cutting-edge experimental setups.

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🎓 Early Academic Pursuits

Abid began his academic journey with a B.Sc. (Hons.) in Physics from Aligarh Muslim University (2012-14), where he majored in Physics, Mathematics, and Chemistry. He then pursued his M.Sc. in Physics from the University of Delhi (2014-16), specializing in Laser and Spectroscopy, which laid the foundation for his future research in advanced material characterization.

💼 Professional Endeavors

Dr. Abid’s professional path is marked by his current role as Assistant Professor at the University of Ladakh, where he applies his expertise in Physics and Materials Science to mentor the next generation of scientists. Before this, he made significant contributions at the Inter-University Accelerator Center (IUAC), New Delhi, particularly in high-energy ion irradiation and the study of radiation-induced defects in high-entropy alloys.

🔬 Contributions and Research Focus

Dr. Abid’s research interests lie at the intersection of radiation damage, materials science, and applied physics. His work primarily focuses on the radiation stability and defect dynamics in high-entropy alloys, including NiCoCrFePd alloys. Through his extensive ion irradiation experiments, he has contributed valuable insights into the mechanical hardness and phase stability of these materials under extreme conditions. His research is crucial for applications in nuclear reactors and space technology.

🌍 Impact and Influence

Dr. Abid’s research has been influential in understanding how materials behave under high-energy ion irradiation and has implications for nuclear energy and space exploration. His work has been published in high-impact journals like the Journal of Applied Physics, Materials Science and Engineering: A, and Journal of Alloys and Compounds, contributing to global scientific discussions on high-entropy alloys, radiation-induced hardening, and defect evolution.

Citations📚

A total of 46 citations for his publications, demonstrating the impact and recognition of his research within the academic community.

  • Citations –    46
  • h-index   –      3

🧑‍🏫 Research Skills

Dr. Abid possesses a broad range of technical skills that include:

  • Low and high-temperature XRD systems (down to 15K).
  • E-beam evaporation, sputtering systems, and TEM sample preparation.
  • Expertise in hydrogen sensing using XRD in hydrogen-rich environments.
  • Proficiency in computational techniques with knowledge of C++, FORTRAN, MATLAB, and LaTeX for data analysis and scientific writing. These skills have facilitated his contributions to advanced material characterization and radiation damage studies.

👨‍🏫 Teaching Experience

Dr. Abid’s teaching career began in August 2023, when he joined the University of Ladakh as an Assistant Professor. He has a strong background in teaching Physics and Materials Science. His teaching integrates research-driven knowledge with a passionate commitment to fostering scientific curiosity in his students. Prior to this, Abid contributed to various research-driven academic setups, enhancing his capability to inspire young minds in the field.

🏆 Awards and Honors

Dr. Abid has received several accolades for his academic excellence:

  • Best Poster Presentation Award at the Joint ICTP-IAEA Virtual Workshop on Atomistic Modelling of Radiation Damage (2021).
  • 2nd Best Poster Presentation Award at the 7th International Conference on Ion Beams in Materials Engineering and Characterization (2022).
  • Consolation Best Poster Award at the International Conference on Electron Microscopy & XLI Annual Meeting of EMSI (2023). His consistent recognition reflects the high regard for his work within the academic community.

Publications Top Notes

 

 

Essebti Dhahri | Experimental methods | Physics Research and Development Award

Published on by High Energy Physics

Prof. Essebti Dhahri | Experimental methods | Physics Research and Development Award

Faculté des Sciences de Sfax | Tunisia

Professor Dhahri Essebti, is a distinguished Professor of Physics at the Faculty of Sciences of Sfax under the Ministry of Higher Education and Scientific Research. He has held the position of Director of the Laboratory of Applied Physics (LPA) since 2016, contributing significantly to the advancement of applied physics and its practical applications in various industries and research sectors.

👨‍🎓Publication Profile

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Early Academic Pursuits 🎓

Professor Dhahri’s academic journey began with a strong foundation in Physics, where he developed a deep understanding of scientific concepts, leading to a specialization in Materials Science, Nanotechnology, and Multifunctional Applications. His early pursuits paved the way for his eventual promotion to Professor in 2005, marking the start of a remarkable career in both teaching and scientific research.

Professional Endeavors 🏢

Professor Dhahri has held pivotal administrative and scientific roles. He served as the Director of the Research Unit on Physics of Materials and Energetics in 1999, and led the Magnetism Team at the Applied Physics Laboratory from 2005 to 2010. He was appointed the Division Head at the Laboratory of Applied Physics from 2010 to 2015, before assuming his current role as Director of the Laboratory in 2016. His leadership has been instrumental in guiding cutting-edge research in materials physics, nanotechnology, and energy applications.

Contributions and Research Focus 🧪

Professor Dhahri’s research has focused extensively on materials science, with a particular emphasis on multifunctional materials, nanotechnology, and applied physics. He has been involved in significant research projects, such as Phosphogypsum valorization in collaboration with the Chemical Group and SIAPE (Sfax). His work aims to merge theoretical physics with practical, industry-based solutions, furthering the use of advanced materials in everyday applications like energy and environmental sustainability.

Impact and Influence 🌍

Professor Dhahri’s international collaborations have made a lasting impact on the global scientific community. He has worked with prestigious institutions such as the University of Grenoble (France), University of Aveiro (Portugal), and University of Beni Mellal (Morocco), among others. His leadership in the PHC Maghreb research network has enhanced his ability to bridge scientific efforts across borders, fostering cooperation between countries and driving impactful innovations in materials science and nanotechnology.

His influence extends beyond research to policy-making and scientific advisory roles, having served as a project evaluator for national and bilateral research projects, such as PHC-Utique Projects and Tunisia-Canada collaborations.

Academic Cites and Research Skills 📊

With over 500 indexed articles in SCOPUS and an impressive H-index of 52, Professor Dhahri has made a significant mark in the academic world. His research skills span multiple facets of applied physics, particularly materials characterization, energy materials, and nanomaterials. His extensive publication record reflects the broad and deep influence of his work across various scientific communities and disciplines.

Teaching Experience 👨‍🏫

Professor Dhahri has taught Physics at Bachelor’s, Master’s, and Postgraduate levels, contributing to the development of future scientists and researchers. He has supervised 33 doctoral theses, 56 DEA and Master’s projects, and 17 Professional Master’s Projects, demonstrating his commitment to guiding students through complex scientific concepts and research methodologies. His mentorship has helped cultivate a new generation of scholars in the field of applied physics.

Legacy and Future Contributions 🌟

Professor Dhahri’s legacy lies in his ability to integrate academic research with practical industrial applications, making significant strides in the valorization of materials and energy applications. His future contributions are expected to continue shaping the fields of nanotechnology, materials science, and energy solutions. Furthermore, his role as a mentor and project evaluator ensures that his influence will persist in shaping the direction of future research in Tunisia and beyond.

Publications Top Notes

 

 

To Kang| Experimental methods | Best Researcher Award

Published on by High Energy Physics

Dr. To Kang| Experimental methods | Best Researcher Award

 Korea Atomic Energy Research Institute, South Korea

👨‍🎓 Profile

🎓 Early Academic Pursuits

To Kang embarked on an exceptional academic journey in Mechanical Engineering at Sungkyunkwan University, Korea, earning his B.S. (2008), M.S. (2010), and culminating in a Ph.D. (2017). His doctoral work was recognized for its innovative approach, earning the Excellent Doctoral Dissertation Award. These formative years laid the groundwork for his expertise in advanced engineering principles and problem-solving.

🛠️ Professional Endeavors

To Kang’s career is marked by remarkable progress through key roles at the Korea Atomic Energy Research Institute (KAERI). Beginning as a Researcher (2013-2016), he quickly advanced to Senior Researcher (2016-2024), and now serves as Principal Researcher. These roles reflect his consistent contributions to the nondestructive testing field and innovative engineering solutions.

🧪 Contributions and Research Focus

Kang’s research has significantly advanced nondestructive testing, particularly in leakage detection technologies, with a technology transfer generating KRW 120 million in 2016. His work explores cutting-edge solutions for mechanical system safety and has contributed to numerous award-winning papers, cementing his position as a leader in scientific research

🌍 Impact and Influence

Dr. Kang’s achievements have been recognized with numerous Excellent Paper Awards from prestigious organizations such as the Korean Society for Nondestructive Testing and the Korean Welding and Joining Society. His contributions to the Korea Atomic Energy Research Institute have earned him accolades like the Intellectual Property Excellence Award. His innovations have influenced both academia and industry, setting benchmarks for safety and precision in engineering practices.

📚 Academic Citations and Recognitions

To Kang’s publications are widely recognized in scientific communities for their relevance and technical depth. His papers often attract significant citations, reflecting the global reach and academic impact of his work. These achievements underscore his role as a thought leader in mechanical engineering research.

🖥️ Technical Skills

Dr. Kang possesses advanced expertise in ultrasonic systems, finite element analysis (FEA), and phased array systems. He is also a certified Professional Engineer in Nondestructive Testing, showcasing his hands-on capability in field-deployable measurement techniques. His technical acumen extends to experimental design and technology transfer, as evidenced by the successful commercialization of his leakage detection system.

📖 Teaching and Mentorship

While his primary focus has been research, Kang has also contributed to academia through mentorship and knowledge-sharing. His efforts inspire the next generation of engineers, empowering them to excel in technological innovation and problem-solving.

🌟 Legacy and Future Contributions

Dr. Kang envisions a future where experimental methods drive innovation in nuclear safety and industrial diagnostics. His ongoing projects, including advancements in anisotropic media analysis and flexible transducer technology, promise to shape the next generation of engineering solutions. His legacy lies in bridging the gap between academic research and practical application, ensuring that his work continues to influence the industry for years to come.

Top Noted Publications

Low-Power Field-Deployable Interdigital Transducer-Based Scanning Laser Doppler Vibrometer for Wall-Thinning Detection in Plates
  • Authors: Kang, T.; Han, S.; Yeom, Y.-T.; Lee, H.-Y.
    Journal: Materials, 2024
Detection of Shallow Wall-Thinning of Pipes Using a Flexible Interdigital Transducer-Based Scanning Laser Doppler Vibrometer
  • Authors: Kang, T.; Han, S.-J.; Han, S.; Kim, K.-M.; Kim, D.-J.
    Journal: Structural Health Monitoring, 2022
FEA-Based Ultrasonic Focusing Method in Anisotropic Media for Phased Array Systems
  • Authors: Moon, S.; Kang, T.; Han, S.; Kim, M.; Seo, H.
    Journal: Applied Sciences (Switzerland), 2021
Field-Deployable Measurement Technique for Absolute Acoustic Nonlinearity Parameter Values
  • Authors: Kang, T.; Na, J.K.; Lee, T.; Song, S.-J.
    Journal: Ultrasonics, 2021
2D-Wavelet Wavenumber Filtering for Structural Damage Detection Using Full Steady-State Wavefield Laser Scanning
  • Authors: Jeon, J.Y.; Kim, D.; Park, G.; Kang, T.; Han, S.
    Journal: NDT and E International, 2020

 

 

 

Feiqian Wang | Experimental methods | Best Researcher Award

Published on by High Energy Physics

Assoc Prof Dr. Feiqian Wang | Experimental methods | Best Researcher Award

Associate Professor at The First Affiliated Hospital of Xi’an Jiaotong University, China

Dr. Feiqian Wang is an Associate Professor in the Department of Ultrasound at the First Affiliated Hospital of Xi’an Jiaotong University. With a postdoctoral background in respiratory medicine and a combined master’s and doctoral degree in internal medicine, Dr. Wang has become a prominent figure in medical imaging, particularly in ultrasound and contrast-enhanced imaging. She has contributed significantly to the early diagnosis of liver diseases, microvascular invasion, and hepatocellular carcinoma. Dr. Wang holds several leadership roles, including Secretary-General of the Ultrasound Physicians Branch of the Shaanxi Medical Association, and has earned numerous national and international research grants.

🎓Profile

👩‍⚕️ Early Academic Pursuits

Feiqian Wang began her academic journey in medicine at Xi’an Jiaotong University, where she earned her undergraduate degree in Clinical Medicine (2002–2007). This foundational training laid the groundwork for her later academic and clinical achievements. Building on this, she pursued a combined Master’s and Doctoral degree in Internal Medicine, which she completed in 2012. Feiqian’s early focus on internal medicine provided her with critical clinical skills, which she later applied to the field of ultrasound imaging. She further refined her expertise as a Postdoctoral Researcher in Respiratory Medicine from 2016 to 2022, a period during which she broadened her research interests and honed her academic focus on diagnostic imaging and its applications in liver and cancer diagnostics.

🏥 Professional Endeavors

Since joining the First Affiliated Hospital of Medical School, Xi’an Jiaotong University, Feiqian Wang has consistently advanced in her medical career. She currently holds the position of Associate Professor in the Department of Ultrasound, where she leads cutting-edge research projects while providing expert medical care. Prior to this role, Feiqian served as an Attending Physician (2019–2021) and as both a Resident and Chief-Resident (2012–2018). Her extensive clinical experience in ultrasound, particularly in hepatocellular carcinoma (HCC) imaging, has shaped her research endeavors and her contributions to the medical field. Feiqian’s professional achievements also include her positions as Secretary-General of the Ultrasound Physicians Branch of the Shaanxi Medical Association and as a reviewer for various high-impact journals.

🔬 Contributions and Research Focus

Feiqian Wang’s research focuses primarily on advanced ultrasound imaging technologies, particularly in the early diagnosis of liver diseases such as hepatocellular carcinoma (HCC). Her work integrates multiple imaging modalities, including contrast-enhanced ultrasound (CEUS) and magnetic resonance imaging (MRI), to assess microvascular invasion and other critical markers of HCC. She has secured numerous research grants, notably from the National Natural Science Foundation of China, which underscores the significance and impact of her work. Feiqian’s research into hepatocellular carcinoma, fusion imaging, and elastography technologies continues to contribute to the diagnostic precision and personalized treatment strategies in oncology. Moreover, her innovative approach to combining S-CEUS, U-CEMRI, and SWI imaging in diagnosing HCC has opened new avenues in clinical practice.

🌍 Impact and Influence

Feiqian Wang’s research has had a profound influence in the realm of diagnostic imaging, particularly in the field of oncology and liver diseases. Her pioneering work on CEUS and MRI fusion imaging, along with her nomogram models for predicting vascular patterns in HCC, has contributed to advancements in non-invasive diagnostics. Feiqian’s research has been widely published in leading medical journals such as Radiology, European Journal of Radiology Open, and Biosci Trends. These publications are frequently cited by other researchers, showcasing the broad influence of her work in the scientific community. Additionally, her contributions to patent innovations in ultrasound technology underscore her role in driving forward new medical technologies and improving clinical practices.

🏅 Academic Citations

Feiqian Wang’s research is well-recognized in the academic community, with numerous publications in high-impact journals over the past five years. Her work has earned her respect both nationally and internationally, with publications cited widely in medical and imaging literature. For example, her study on “Contrast-Enhanced Ultrasound and MRI Fusion Imaging for Hepatocellular Carcinoma Diagnosis” has become a reference point for other researchers in the field. These citations reflect the high quality of her work and its relevance to the evolving medical landscape. Feiqian’s ability to secure multiple research grants also highlights her esteemed position within academic circles, further cementing her credibility as a leading expert in her field.

🖥️ Technical Skills

Feiqian Wang is highly skilled in advanced imaging technologies, with expertise in contrast-enhanced ultrasound (CEUS), elastography, and fusion imaging techniques. She is proficient in integrating various diagnostic methods, such as S-CEUS, U-CEMRI, and SWI, to improve early detection and diagnosis of liver diseases. Her technical proficiency extends to the use of deep learning and AI models for image analysis, as evidenced by her research on breast nodule classification using deep convolutional neural networks. Feiqian’s technical acumen in ultrasound imaging not only enhances her clinical diagnostic abilities but also places her at the forefront of innovative research in the field.

🎓 Teaching Experience

As an Associate Professor in the Department of Ultrasound, Feiqian Wang plays an essential role in shaping the next generation of medical professionals. She has taught and mentored undergraduate and postgraduate students, offering training in ultrasound diagnostic techniques and medical imaging. Her commitment to education is further demonstrated by her leadership in various academic committees, including those related to ultrasound medical engineering. Feiqian’s teaching approach is grounded in practical, hands-on training, ensuring that her students acquire the necessary skills to apply diagnostic imaging techniques in clinical settings.

🌟 Legacy and Future Contributions

Feiqian Wang’s legacy is built upon her groundbreaking research, her commitment to improving diagnostic techniques, and her contributions to medical education. Her work in imaging technology has already revolutionized certain aspects of HCC diagnosis and is expected to have an enduring impact on clinical practices. As a leading figure in her field, Feiqian is poised to continue contributing to advancements in ultrasound and medical imaging technologies. In the future, she plans to further develop multimodal imaging strategies for early disease detection and improve the integration of AI and machine learning in medical diagnostics. Her ongoing research in early liver imaging diagnosis and its clinical applications promises to have a significant impact on the early detection of liver diseases, ultimately saving lives through more precise and timely interventions.

🏆 Awards and Recognition

Throughout her career, Feiqian Wang has received numerous accolades for her contributions to science and medicine. She was awarded the second prize in the 2018 Science and Technology Progress Award of Shaanxi Province for her work on microinflammation mechanisms in CKD patients. Additionally, her excellence in ultrasound imaging was recognized with the “Best Slide Making Award” in the China Contrast-Enhanced Ultrasonography Congress. These accolades, along with her academic and professional achievements, highlight her exceptional skills and dedication to advancing medical knowledge and practice.

📖Publication Top Notes

High Spatiotemporal Resolution Contrast-Free Ultrasound Microvascular Imaging Using Adaptive Weight-Based Nonlinear Compounding
    • Authors: Liyuan Jiang, Hanbing Chu, Yang Liu, Jiacheng Liu, Xiao Su, Yichen Yan, Meiling Liang, Yiran Chen, Chaoyang Zhang, Feiqian Wang et al.
    • Journal: IEEE Transactions on Instrumentation and Measurement
    • Year: 2024
A Nomogram Based on Features of Ultrasonography and Contrast-Enhanced CT to Predict Vessels Encapsulating Tumor Clusters Pattern of Hepatocellular Carcinoma
    • Authors: Litao Ruan, Jingtong Yu, Xingqi Lu, Kazushi Numata, Dong Zhang, Xi Liu, Xiaojing Li, Mingwei Zhang, Feiqian Wang
    • Journal: Ultrasound in Medicine & Biology
    • Year: 2024
Added Value of Ultrasound-Based Multimodal Imaging to Diagnose Hepatic Sclerosed Hemangioma before Biopsy and Resection
    • Authors: Feiqian Wang, Kazushi Numata, Hiromi Nihonmatsu, Makoto Chuma, Naomi Ideno, Akito Nozaki, Katsuaki Ogushi, Mikiko Tanab, Masahiro Okada, Wen Luo et al.
    • Journal: Diagnostics
    • Year: 2022
Accurate Assessment of Vascularity of Focal Hepatic Lesions in Arterial Phase Imaging
    • Authors: Feiqian Wang, Kazushi Numata, Litao Ruan
    • Journal: Radiology
    • Year: 2020

 

 

Celal Kursun | Experimental methods | Best Researcher Award

Published on by High Energy Physics

Assoc Prof Dr. Celal Kursun | Experimental methods | Best Researcher Award

Head of Materials Science and Engineering at Kahramanmaras Sutcu Imam University, Turkey

Dr. Celal Kurşun is an Associate Professor at Kahramanmaraş Sütçü İmam University, specializing in Materials Science and Engineering. He completed his postdoctoral research at the University of Wisconsin-Madison and has a strong background in the synthesis and characterization of advanced materials, including magnesium-based alloys and metallic glasses. Dr. Kurşun has held various academic positions, including Assistant Professor and Research Specialist, and has supervised numerous graduate theses.

🎓Profile

Early Academic Pursuits 📚

Dr. Celal Kurşun’s academic journey is a testament to his dedication to materials science and engineering, with a particular focus on advanced alloys, structural properties, and energy applications. His academic path began with a Bachelor’s degree in 2009, followed by a Master’s degree in 2012, where he investigated the structural and thermal properties of copper-based alloys. These early pursuits laid the foundation for his more extensive doctoral research, where he completed not one but two PhD theses. The first, completed in 2015, focused on the structural, thermal, and mechanical properties of Cu-based nanocrystalline alloys, while the second (2018) shifted focus to magnesium-based amorphous and nanocrystalline alloys, particularly their mechanical and hydrogen storage capacities. This early academic pursuit of diverse materials’ properties set the stage for his later contributions to high-impact research areas such as energy storage, radiation shielding, and alloy design.

Professional Endeavors & Postdoctoral Research 🔬

Dr. Kurşun’s professional career is distinguished by both teaching and high-level research. After earning his PhD, he undertook a postdoctoral position at the prestigious University of Wisconsin-Madison (2018-2020) within the Materials Science and Engineering Department. Here, his research concentrated on the design, synthesis, and characterization of advanced magnesium-based bulk metallic glass alloys for hydrogen storage and energy applications. This period not only sharpened his research skills but also allowed him to engage in cutting-edge projects with significant implications for sustainable energy technologies. His postdoctoral work solidified his reputation as a leading figure in the study of energy-efficient materials.

Contributions and Research Focus ⚙️

Dr. Kurşun’s research focuses on advanced materials, particularly nanostructured and metallic glass alloys. His work addresses critical challenges in energy storage, with a focus on hydrogen storage in magnesium-based alloys, which holds promise for clean energy applications. Additionally, his research on radiation shielding materials, such as boron-doped titanium alloys and Al-Gd2O3 composites, contributes to industries requiring advanced protective materials against neutron and gamma radiation, such as nuclear energy and space exploration.

Impact and Influence 🌍

Dr. Kurşun’s research has not only advanced academic knowledge but has also had significant real-world applications. His groundbreaking work on magnesium-based alloys for hydrogen storage and his innovative approaches to improving radiation shielding materials have placed him at the forefront of energy and environmental research. Furthermore, his academic leadership has had a broad impact through the mentorship of numerous graduate students, many of whom have gone on to pursue successful careers in materials science and engineering. His recognition within international scientific organizations such as the American Physical Society and The Minerals, Metals & Materials Society underscores his influence on the global materials science community.

Academic Citations 📑

Dr. Kurşun’s work has been consistently recognized and cited in leading international journals, including Journal of Materials Science: Materials in Electronics, Ceramics International, and HELIYON. His research on the structural and mechanical properties of alloys, radiation shielding, and catalytic processes is frequently cited by researchers working in similar domains, contributing to the development of novel materials and technologies. His citation record reflects the impact his work has had on advancing knowledge and innovation in materials science, energy storage, and environmental sustainability.

Technical Skills 🛠️

Dr. Kurşun possesses an extensive skill set, combining advanced experimental techniques with theoretical modeling. His technical expertise includes the design, synthesis, and characterization of amorphous and nanocrystalline alloys, as well as mechanical testing, neutron and gamma radiation shielding, and the study of thermal properties of materials. His familiarity with techniques such as arc melting, mechanical alloying, and the use of various characterization tools (e.g., X-ray diffraction, scanning electron microscopy) allows him to address complex challenges in materials science.

Teaching Experience 🍎

Throughout his career, Dr. Kurşun has demonstrated a strong commitment to teaching and mentoring students. As an Associate Professor, he has designed and taught various courses in materials science, solid-state physics, and engineering, preparing the next generation of scientists and engineers. His approach to teaching emphasizes not only the theoretical foundations of materials science but also practical, hands-on experiences that prepare students for real-world challenges. In addition to his classroom duties, Dr. Kurşun has supervised a number of graduate and undergraduate theses, helping students pursue their research interests and develop critical thinking and analytical skills.

Legacy and Future Contributions 🔮

Dr. Kurşun’s legacy is already being shaped by his continued research and mentorship, with his influence extending to both the scientific community and the educational sector. Looking ahead, Dr. Kurşun aims to deepen his work on sustainable materials for energy applications, particularly in developing alloys that can address the global demand for clean energy solutions. His research trajectory also hints at greater interdisciplinary work, exploring areas where materials science meets environmental sustainability, energy storage, and the circular economy.

Publication Top Notes📖

Structure, mechanical, and neutron radiation shielding characteristics of mechanically milled nanostructured (100-x)Al-xGd2O3 metal composites
  • Authors: Celal Kursun, Meng Gao, Ali Orkun Yalcin, Khursheed A. Parrey, Yasin Gaylan
    Journal: Ceramics International
    Year: 2024
Unraveling structural relaxation induced ductile-to-brittle transition from perspective of shear band nucleation kinetics in metallic glass
  • Authors: Meng Gao, Celal Kursun, John H. Perepezko
    Journal: Journal of Alloys and Compounds
    Year: 2023
Synthesis and mechanical properties of (Ni70Si30)100−x Fe x (x = 0, 5, 10) alloys
  • Authors: Celal Kursun, Ahmet Muslim Aksoy
    Journal: Emerging Materials Research
    Year: 2019
Mechanical properties, microstructural and thermal evolution of Mg65Ni20Y15−xSix (X = 1, 2, 3) alloys by mechanical alloying
  • Authors: Celal Kursun, Musa Gogebakan, Hasan Eskalen
    Journal: Materials Research Express
    Year: 2018
The Effect of Milling Time on the Synthesis of Cu54Mg22Ti18Ni6 Alloy
  • Authors: Celal Kursun, Musa Gogebakan
    Journal: 9th International Physics Conference of the Balkan Physical Union (Bpu-9)
    Year: 2016

 

 

Robert CHEHAB | Experimental methods | Best Innovation Award

Published on by High Energy Physics

Dr.Robert CHEHAB | Experimental methods | Best Innovation Award

Accelerator physicist at IN2P3/CNRS in France

Dr. Robert Chehab, born on October 22, 1937, in Alexandria, Egypt, is a renowned physicist specializing in accelerator physics. He holds French nationality and has had a prestigious academic and scientific career. Dr. Chehab completed his engineering degree from the prestigious École Nationale Supérieure des Télécommunications (now TELECOM-Paris-Tech) in 1963, followed by a PhD in Physical Sciences from Université d’Orsay in 1975. His work has been instrumental in advancing our understanding of positron sources, channeling radiation, and radiation physics. Over his career, he has collaborated with leading institutions such as CERN, KEK, DESY, and SLAC. As a scientist and educator, he has mentored PhD students in radiation and positron source research. Fluent in five languages, Dr. Chehab has contributed significantly to accelerator physics research globally.

Profile:

Education:

Dr. Robert Chehab’s academic journey began at the École Nationale Supérieure des Télécommunications (ENST), now known as TELECOM-Paris-Tech, where he obtained his engineering degree in 1963. His rigorous technical education at ENST laid the foundation for his subsequent focus on accelerator physics. In 1975, he earned his PhD (Docteur-Ingénieur en Sciences Physiques) from the Université d’Orsay. His PhD work explored fundamental concepts in radiation physics and beam dynamics, setting the stage for a prolific research career. Throughout his educational journey, Dr. Chehab showed a deep understanding of complex scientific phenomena such as Cherenkov radiation, positron sources, and channeling radiation, positioning himself as a leading figure in his field. His multidisciplinary expertise has also allowed him to maintain fluency in French, English, Italian, Russian, and Arabic, further enhancing his global scientific impact.

Professional experience:

Dr. Robert Chehab has accumulated extensive experience in both academic and international research environments. He has spent a significant portion of his career at Université Paris-Saclay, where he has led various research projects on accelerator physics. Dr. Chehab has worked in prestigious laboratories worldwide, including extended stays at KEK in Japan, where he conducted research on positron sources and channeling radiation. He also contributed to experiments at DESY in Germany, focusing on transition radiation, and collaborated with BINP-Novosibirsk on channeling radiation studies. His leadership at CERN, particularly in the WA 103 experiment, has cemented his reputation as a leader in accelerator and radiation physics. Additionally, Dr. Chehab has supervised PhD students and played a critical role in mentoring the next generation of scientists.

Research focus:

Dr. Robert Chehab’s research focuses primarily on accelerator physics, with an emphasis on radiation studies. His work spans various topics, including positron sources, channeling radiation, Cherenkov radiation, transition radiation, and photoemission. He has been actively involved in understanding and developing novel radiation physics techniques for advanced accelerator applications. Dr. Chehab’s research also delves into beam dynamics and RF deflectors, expanding the theoretical and practical frameworks of accelerator science. His notable collaborations with CERN on positron source development for the LEP experiment and SLAC on crystal radiator damage tests have pushed the boundaries of what is known about particle interactions with radiation. His work is essential for innovations in particle accelerators, helping to develop the technology used in numerous high-energy physics experiments.

Awards & Honor:

Throughout his distinguished career, Dr. Robert Chehab has been recognized for his contributions to accelerator physics and radiation studies. He has been involved in numerous international collaborations with esteemed institutions such as CERN, KEK, SLAC, and DESY, where his innovative research in positron sources and radiation physics has earned him accolades. Dr. Chehab’s leadership in major projects, such as the LEP positron source collaboration at CERN, has further solidified his stature in the scientific community. His research has been published in leading journals like Nuclear Instruments and Methods, Physical Review, and Physics Letters. While his awards and recognitions are primarily rooted in his research, his contribution to academic mentorship, especially his guidance of PhD students in advanced radiation physics, has been equally commendable. His work continues to impact both experimental methods and the broader scientific community.

Publication Top Notes:

  • From bremsstrahlung to channeling radiation: A promising way for positron generation
    Chehab, R.
    Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 2024, 1060, 169056
    Citations: 0
  • Advantages of hybrid positron sources with granular converters
    Chehab, R., Chaikovska, I., Alharthi, F., Wallon, S., Sievers, P.
    Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 2024, 1060, 168994
    Citations: 0
  • Benchmarking the FCC-ee positron source simulation tools using the SuperKEKB results
    Alharthi, F., Chaikovska, I., Chehab, R., Miyahara, F., Mytrochenko, V.
    Journal of Physics: Conference Series, 2024, 2687(2), 022010
    Citations: 0
  • Radiation in oriented crystals: Innovative application to future positron sources
    Soldani, M., Alharthi, F., Bandiera, L., Sytov, A., Tikhomirov, V.
    Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 2024, 1058, 168828
    Citations: 1
  • Crystal-based pair production for a lepton collider positron source
    Bandiera, L., Bomben, L., Camattari, R., Tikhomirov, V., Vallazza, E.
    European Physical Journal C, 2022, 82(8), 699
    Citations: 6
  • Positron sources: From conventional to advanced accelerator concepts-based colliders
    Chaikovska, I., Chehab, R., Kubytskyi, V., Hogan, M.J., Martyshkin, P.
    Journal of Instrumentation, 2022, 17(5), P05015
    Citations: 12
  • HE-LHC: The High-Energy Large Hadron Collider: Future Circular Collider Conceptual Design Report Volume 4
    Abada, A., Abbrescia, M., AbdusSalam, S.S., Zupan, J., Zurita, J.
    European Physical Journal: Special Topics, 2019, 228(5), pp. 1109–1382
    Citations: 159
  • FCC-hh: The Hadron Collider: Future Circular Collider Conceptual Design Report Volume 3
    Abada, A., Abbrescia, M., AbdusSalam, S.S., Zupan, J., Zurita, J.
    European Physical Journal: Special Topics, 2019, 228(4), pp. 755–1107
    Citations: 501
  • FCC Physics Opportunities: Future Circular Collider Conceptual Design Report Volume 1
    Abada, A., Abbrescia, M., AbdusSalam, S.S., Zupan, J., Zurita, J.
    European Physical Journal C, 2019, 79(6), 474
    Citations: 540
  • FCC-ee: The Lepton Collider: Future Circular Collider Conceptual Design Report Volume 2
    Abada, A., Abbrescia, M., AbdusSalam, S.S., Zupan, J., Zurita, J.
    European Physical Journal: Special Topics, 2019, 228(2), pp. 261–623
    Citations: 619

Conclusion:

Dr. Robert Chehab’s extensive experience, significant contributions to accelerator physics, and international collaborations make him a strong candidate for the Best Researcher Award. His mentorship and prolific publication record add to his credentials. To further elevate his impact, engaging with newer fields of research and amplifying his public outreach would strengthen his candidacy for future recognitions.