Xiaofei Dong | Experimental methods | Best Researcher Award

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Dr. Xiaofei Dong | Experimental methods | Best Researcher Award

Dr. Xiaofei Dong | Northwest Normal University | China

Xiaofei Dong is a dedicated researcher in the field of photovoltaic materials and neuromorphic electronics. He completed his Bachelor’s, Master’s, and Doctoral degrees at the College of Physics and Electronic Engineering, Northwest Normal University, showcasing unwavering academic consistency and depth. In June 2024, he was appointed as an Associate Professor at the same institution, reflecting his rapid academic growth and research productivity. His research primarily focuses on copper-based thin-film solar cells and memristor devices, contributing to the development of high-performance, sustainable energy and intelligent electronic systems. Dong has led multiple university-level funded projects and published influential papers in prestigious journals such as The Journal of Physical Chemistry Letters, Solar Energy Materials and Solar Cells, and Materials Letters. His ability to integrate fundamental materials science with practical device engineering has gained recognition within the academic community. Dong continues to strive for breakthroughs in energy efficiency and bio-inspired electronic systems.

Author Profile

Scopus

Education

Xiaofei Dong pursued all his higher education at Northwest Normal University, College of Physics and Electronic Engineering. He obtained his Bachelor’s degree from 2014 to 2018, followed by a Master’s degree between 2018 and 2021. His postgraduate research focused on thin-film solar cell development and was supervised by senior faculty, including Prof. Yan Li and Dr. Yun Zhao. Dong completed his Doctoral program, delving deeper into advanced optoelectronic materials and memristive devices. His consistent academic journey in a singular research environment has enabled him to build deep expertise and conduct long-term, coherent investigations in copper-based semiconductor systems, gaining both theoretical and experimental mastery over key challenges in solar cell efficiency and neuromorphic component design.

Professional Experience

Xiaofei Dong has served as an Associate Professor at the College of Physics and Electronic Engineering, Northwest Normal University. His career has been deeply rooted in the same institution, where he also completed his academic training. Prior to this role, Dong was extensively involved in research projects and academic publications throughout his Master’s and Ph.D. studies. As a graduate student, he led several funded research programs, focusing on novel optoelectronic materials, solar cells, and memristor-based artificial synapses. His current responsibilities include research leadership, teaching duties, and mentoring students in the areas of energy materials and electronic devices. Dong’s seamless transition from student researcher to faculty member reflects his scientific maturity, institutional trust, and commitment to research excellence.

Awards and Honors

Xiaofei Dong has received multiple academic honors and internal funding awards that reflect the quality and promise of his research. He was the recipient of the 2019 Graduate Research Grant Program, where he investigated Li-doped Cu₂ZnSn(S,Se)₄ solar cells. He later secured the 2021 Graduate Research Grant Program and the Outstanding Doctoral Dissertation Cultivation Grant Program, where he explored photosensitive films and memristor simulation respectively. These competitive programs not only provided research funding but also recognized Dong’s innovative work in energy conversion and neuromorphic electronics. His publications in high-impact journals have also contributed to his academic visibility, and he is considered a rising scholar within his department. These recognitions mark his research as both relevant and forward-looking in today’s energy and smart electronics sectors.

Research Focus

Xiaofei Dong’s research revolves around copper-based semiconductors, particularly Cu₂ZnSn(S,Se)₄ (CZTSSe) thin films used in solar cell applications. His work emphasizes improving the efficiency and stability of these devices through innovative treatments such as Li and Na doping and interface engineering. Additionally, he explores memristive behaviors in kesterite materials, aiming to simulate artificial synaptic functions for neuromorphic computing. Dong’s approach integrates both material synthesis and device fabrication, bridging the gap between fundamental material science and practical optoelectronic applications. He also investigates optoelectronic memristors embedded in polymers, contributing to the development of light-controlled memory and learning devices. His goal is to design energy-efficient, environmentally friendly components for next-generation electronics, making a tangible impact in sustainable technology and intelligent systems.

Notable Publication

Coexistence of Bipolar Resistive Switching and the Negative Differential Resistance Effect from a Kesterite Memristor

  • Authors: Xiao-Fei Dong, Yun Zhao, Ting-Ting Zheng, Xue Li, Cheng-Wei Wang, Wei-Min Li, Yan Shao, Yan Li
    Journal: The Journal of Physical Chemistry C
    Year: 2021

An effective Li-containing interfacial-treating strategy for performance enhancement of air-processed CZTSSe solar cells

  • Authors: Xiao-Fei Dong, Ting-Ting Zheng, Feng-Xia Yang, Xu-Dong Sun, Lei Yu, Jiang-Tao Chen, Cheng-Wei Wang, Yun Zhao, Yan Li
    Journal: Solar Energy Materials and Solar Cells
    Year: 2021

Influence of Mo-pretreating on microstructure evolution of solution-processed absorbers for high efficient CZTSSe solar cells

  • Authors: Xiaofei Dong, Siyuan Li, Hao Sun, Qian He, Yun Zhao, Yan Li
    Journal: Materials Letters
    Year: 2022

Optoelectronic Memristive Synapse Behavior for the Architecture of Cu₂ZnSnS₄@BiOBr Embedded in Poly(methyl methacrylate)

  • Authors: Xiaofei Dong, Siyuan Li, Hao Sun, Lijuan Jian, Wenbin Wei, Jianbiao Chen, Yun Zhao, Jiangtao Chen, Xuqiang Zhang, Yan Li
    Journal: The Journal of Physical Chemistry Letters
    Year: 2023

A new strategy for improving the efficiency of thin-film solar cells by regulating the gradient grain structure of CZTSSe absorbers: Na treatment induces uniform selenization

  • Authors: Xiaofei Dong, Fengxia Yang, Siyuan Li, Hao Sun, Jiangtao Chen, Xuqiang Zhang, Yun Zhao, Yan Li
    Journal: Ceramics International
    Year: 2023

Conclusion

Xiaofei Dong has established himself as a promising young researcher in energy materials and neuromorphic electronics. His consistent academic path, project leadership, and impactful publications illustrate a strong foundation in both scientific rigor and practical innovation. As an early-career Associate Professor, Dong is well-positioned to contribute further to clean energy solutions and bio-inspired electronic devices. His work aligns with global research trends and societal needs, making him a fitting candidate for research recognition and academic advancement.

Hussaini Syed Shaukatullah Syed Azmatullah | Experimental methods | Best Researcher Award

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Prof. Hussaini Syed Shaukatullah Syed Azmatullah | Experimental methods | Best Researcher Award

Prof. Hussaini Syed Shaukatullah Syed Azmatullah | Milliya Arts Science, & Management Science College, BEED | India

Dr. Hussaini Syed Shaukatullah Syed Azmatullah is a distinguished Professor and Head of the Crystal Growth Laboratory at the Department of Physics, Milliya Arts, Science and Management Science College, Beed, India. With over 29 years of teaching and 15 years of research experience, he has significantly contributed to the field of crystal growth and non-linear optical (NLO) materials. Dr. Hussaini completed his Ph.D. from Dr. Babasaheb Ambedkar Marathwada University in 2008. He is a recognized academician involved in various administrative and academic roles, including Vice-Principal and Head of Department. His research includes crystal growth techniques for optoelectronics applications. He has been awarded multiple prestigious teaching awards and holds a national patent for a solar-powered tent. He actively reviews for international journals and contributes extensively to scientific literature.

Author Profile

Google scholar | Scopus | ORCID

Education

Dr. Hussaini’s academic journey began with secondary education (SSC) from the HSC and SSC Board, Aurangabad, securing Second Division in 1985. He completed his Higher Secondary Certificate (HSC) with First Division in 1987 from the same board. He graduated with a First Division from Marathwada University, Aurangabad, in 1990 and completed his post-graduation in Physics from the same university in 1992, also with First Division. He pursued a Ph.D. from Dr. Babasaheb Ambedkar Marathwada University, Aurangabad, awarded in 2008. Although M.Phil details are not provided, his educational credentials emphasize a strong foundation in Physics and crystal growth studies, preparing him for his academic and research career in advanced optical materials.

Professional Experience

Dr. Hussaini has 29 years of teaching experience and 15 years in research. He serves as Assistant Professor in the Department of Physics at Milliya Arts, Science and Management Science College, Beed. Since 2003, he has been Head of the Department, and since 2016, Vice-Principal (Academics). His administrative roles include ISO-9001:2015 Coordinator, IQAC member, Science Faculty Coordinator, and Chairperson of the UGC Affairs Committee. He has served as Vice Chancellor’s nominee for selection committees and contributed to syllabus design and university affiliation committees. His extensive academic and administrative experience highlights his leadership in curriculum development, quality assurance, and fostering research culture in crystal growth and optical materials.

Awards and Honors

Dr. Hussaini has been honored with several awards recognizing his dedication to education and research. In 2012, he received the State Level Ideal Teacher Award from MUPTA. He earned the Ideal Teacher Award in 2015 from Al-Hilal Times & Bazme Shama Adab and the Dr. Homi Bhabha Award from Divya Varta & Kashmakash NGO the same year. In 2018, he was awarded the State Level Subhedar Mallharrao Hoalkar Ideal Teacher Award by the Raje Mallharrao Hoalkar Samajik Prishithan, Beed. More recently, he received the Ideal Teacher Award from School Express, Beed, in 2019, the Award for Good Educational Work by Dynadevo Bahuudashaya Sanastha, Shreerampur in 2021, and Excellence in Education from the Association of Muslim Educational, India in 2022.

Research Focus

Dr. Hussaini specializes in the growth and characterization of non-linear optical (NLO) crystals, vital for optoelectronic and photonic applications. His research primarily focuses on solution growth techniques to develop high-quality NLO materials, such as copper sulfate, potassium dihydrogen phosphate (KDP), and amino acid-doped crystals. He investigates the structural, optical, dielectric, and mechanical properties of these materials to optimize them for frequency conversion and nonlinear optical devices. His projects funded by UGC and DST underline his commitment to advancing crystal growth technology. Dr. Hussaini’s research also extends to exploring environmentally friendly and cost-effective materials for solar and photonic applications, contributing to sustainable technology development.

Notable Publications

Laser induced and microscopic traits of pure and glutamic acid influenced copper sulfate crystal for optoelectronics devices

  • Authors: Sana Khan, S. M. Azhar, M. D. Shirsat & S. S. Hussaini
    Journal: Journal of Molecular Crystals and Liquid Crystals
    Year: 2025

Tailoring Optical and Dielectric Traits of SA Crystal Exploiting Glycine for Optoelectronics Applications

  • Authors: Syeda Bushra Tayyaba, M.D. Shirsat, S.S. Hussaini
    Journal: Journal of Nanotechnology Perceptions
    Year: 2024

Potassium Doping’s Effect on Linear Optical Properties of L-PTCA Crystals

  • Authors: S. Shabnam Anjum, S.S Hussaini, R.N. Shaikh
    Journal: Journal of Nanotechnology Perceptions
    Year: 2024

Influence of Acetic Acid on the Optical Characteristics of Potassium Dihydrogen Phosphate Doped Crystal

  • Authors: Sayyad Shaheen, S. S Hussaini, R. N Shaikh
    Journal: Journal of Nanotechnology Perceptions
    Year: 2024

Effect of Organic Entities on the Performance of Potassium Dihydrogen Phosphate (KDP) Crystals

  • Authors: Sujata B. Bade, Y.B. Rasal, M.D. Shirsat, S.S. Hussaini
    Journal: J Condensed Matter
    Year: 2023

Optimizing laser induced nonlinear optical, dielectric and microscopic traits of copper sulfate crystal by glycine for photonic device applications

  • Authors: Sana Khan, S.M. Azhar, M.D. Shirsat, S.S. Hussaini, I.M. Ashraf, Mohd Anis
    Journal: Inorganic Chemistry Communications
    Year: 2022

Conclusion

Dr. Hussaini Syed Shaukatullah Syed Azmatullah is a leading figure in the field of crystal growth and nonlinear optical materials with a profound impact on both academic and applied research. His long-standing commitment to teaching, research, and academic leadership has enriched the scientific community and educational institutions. Through his innovative work on NLO crystals and photonic devices, he has contributed significantly to advancements in optoelectronics. Recognized by numerous awards and active participation in professional bodies, Dr. Hussaini continues to inspire future scientists and plays a vital role in advancing material science research in India.

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.

👨‍🎓Profile

Scopus

Orcid

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

 

 

Ali Ajami | Experimental methods | Best Researcher Award

Published on by High Energy Physics

Prof. Ali Ajami | Experimental methods | Best Researcher Award

Prof. Elec. Eng. at Azarbaijan Shahid Madani University (ASMU) , Iran

Ali Ajami is a prominent Iranian electrical engineer born on August 23, 1973. He is a Professor at the Department of Electrical Engineering at Azerbaijan Shahid Madani University. Dr. Ajami has made significant contributions to the field of electrical engineering, particularly in power electronics and renewable energy applications. With a career spanning over two decades, he has combined teaching, administration, and research to enhance the educational landscape at his university. His leadership roles, including Vice President for Research and Technology, showcase his commitment to advancing research initiatives. Dr. Ajami’s extensive academic and administrative experience makes him a respected figure in his field.

 🎓Profile:

Education:

Dr. Ajami obtained his Ph.D. in Electrical Engineering from Tabriz University in 2005, following his M.Sc. in 1999 and B.Sc. in 1996, also from the same institution. His solid educational foundation has equipped him with the knowledge and skills necessary for his professional journey. His studies focused on various aspects of electrical and electronic engineering, allowing him to develop a deep understanding of the field. His academic background is complemented by years of practical experience, positioning him as an expert in power electronics and related areas. Dr. Ajami’s educational achievements are a testament to his dedication and expertise in electrical engineering.

Professional Experience:

Dr. Ajami’s professional journey began as an Assistant Professor at Azerbaijan Shahid Madani University in 2006, where he progressed to Associate Professor in 2011 and Professor in 2016. He has held several significant administrative roles, including Vice President for Research and Technology from 2014 to 2022 and Director of Research Affairs. His teaching portfolio includes a wide range of undergraduate and graduate courses, emphasizing industrial electronics, power quality, and modern control systems. Additionally, he has supervised numerous Ph.D. and Master’s theses, shaping the next generation of engineers. Dr. Ajami’s extensive experience in academia highlights his commitment to education and research excellence.

Research Focus:

Dr. Ajami’s research interests are centered on the design and control of power electronic converters, with applications in renewable energy, electric vehicles, and energy storage systems. He is particularly focused on the dynamic and steady-state modeling of FACTS devices such as STATCOM and UPFC, as well as on harmonics and power quality compensation systems. His expertise extends to the use of microprocessors and digital signal processors in control systems for power electronics. Dr. Ajami’s work aims to enhance the efficiency and reliability of electrical systems, making significant contributions to the advancement of sustainable energy technologies.

Awards and Honors:

Dr. Ajami has received multiple Researcher Awards from Azerbaijan University of Tarbiat Moallem and Azerbaijan Shahid Madani University, recognizing his exceptional contributions to research from 2006 to 2015. Notably, he was awarded the Industrial Researcher Award and ranked among the top 2% of highly cited researchers worldwide from 2020 to present. His accolades reflect his dedication to advancing knowledge and innovation in electrical engineering. These honors not only acknowledge his individual achievements but also enhance the reputation of his affiliated institutions. Dr. Ajami’s awards illustrate his impact on the academic and industrial sectors.

 📚Publication Top Notes:

Title: Theoretical and experimental evaluation of SEPIC-based DC–DC converters with two-winding and three-winding coupled inductors
  • Authors: Mahmoudi, M., Ajami, A., Babaei, E., Soleimanifard, J.
    Publication Year: 2022
    Citations: 5
Title: A non‐isolated high step‐up DC‐DC converter with integrated 3 winding coupled inductor and reduced switch voltage stress
  • Authors: M. Mahmoudi, A. Ajami, E. Babaei
    Publication Year: 2018
    Citations: 37
Title: Minimisations of total harmonic distortion in cascaded transformers multilevel inverter by modifying turn ratios of the transformers and input voltage regulation
  • Authors: A. Ajami, A. Farakhor, H. Ardi
    Publication Year: 2014
    Citations: 37
Title: Transformer‐based multilevel inverters: analysis, design and implementation
  • Authors: S. Salehahari, E. Babaei, SH. Hosseini, A. Ajami
    Publication Year: 2019
    Citations: 32
Title: A single switch high step‐up DC‐DC converter with three winding coupled inductor
  • Authors: M. Mahmoudi, A. Ajami, E. Babaei
    Publication Year: 2019
    Citations: 32
Title: Design and control of a grid tied 6-switch converter for two independent low power wind energy resources based on PMSGs with MPPT capability
  • Authors: A. Ajami, R. Alizadeh, M. Elmi
    Publication Year: 2016
    Citations: 32

 

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.