Tag: Particle Interactions

🎓 Early Academic Pursuits

Ahmed began his academic career with a B.Sc. in Science from Cairo University in 2016. He enhanced his learning through prestigious summer schools at Zewail University and hands-on training at the National Research Center. His pursuit of knowledge led him to complete a Pre-Master’s program in 2019 and an M.Sc. in Science in 2021, specializing in theoretical physics. Through these experiences, Ahmed demonstrated early interest in particle interactions and quantum potentials, setting the foundation for future research. His commitment to academic excellence is supported by continuous training in plasma physics and modern physical theories.

💼 Professional Endeavors

Ahmed’s professional journey began with volunteer teaching in a literacy project (2011–2012), where he rose to team leader. From 2016 to 2018, he served as a military officer, leading operations with precision. Since 2018, he has worked as a teaching assistant at Cairo University, supporting courses in physics, research guidance, and laboratory instruction. These roles exhibit his leadership, discipline, and mentorship capabilities. His seamless transition between education, national service, and academia reflects strong adaptability, professional responsibility, and a dedication to societal development alongside academic growth.

🔬 Contributions & Research Focus

Ahmed’s research spans quarkonium spectroscopy, spin splitting, and magnetic interactions in particle systems. His most cited work “Bound state of heavy quarks using a general polynomial potential”—proposes novel models in quantum chromodynamics. He also co-authored a paper on space plasma phenomena in Scientific Reports (2025), marking his entry into applied space physics. His work explores complex mathematical approaches using Nikiforov-Uvarov methods, Schrödinger equations, and analytical modeling. Through this, Ahmed contributes significantly to modern theoretical physics, bridging foundational theory with computational applications in quantum systems and astrophysical plasmas.

🌍 Impact and Influence

Ahmed’s research impact is evident through citations, interdisciplinary topics, and recognition in global journals. His 2018 publication has 35 citations, reflecting its academic reach. By addressing subjects like quark-antiquark systems and Venusian magnetospheric behavior, his work influences both particle physics and space research domains. His research contributions provide analytical tools and spectral data for understanding subatomic forces and cosmic interactions, fostering cross-disciplinary innovation. Ahmed’s influence is not just in numbers but in the applicability of his findings to future space exploration and high-energy experiments, paving paths for emerging physicists in Egypt and beyond.

📊 Academic Citations

Ahmed has co-authored six notable publications. His standout paper on heavy quarks (2018) is cited 35 times, while other works such as the meson spectra (2022) and spin splitting (2020) have also drawn attention. His arXiv preprint and additional contributions collectively amount to over 50 citations, underscoring a growing academic presence. Published in respected journals like Advances in High Energy Physics, Results in Physics, and Scientific Reports, his works are referenced in research related to quantum theory, plasma physics, and nuclear interactions, affirming his role as a rising voice in theoretical and applied physics research.

🧠 Research Skills

Ahmed possesses advanced research skills in mathematical modeling, data fitting, and simulation of physical systems. He is proficient in programming languages like Python, Fortran, C, C++, and analytical tools such as IDL, Matlab, and Origin software. He applies numerical methods and theoretical frameworks to solve quantum field problems and interpret experimental data. His expertise in problem-solving, statistical analysis, and computational physics allows him to work across multiple physics disciplines. Ahmed also leverages Google Drive, Microsoft Office, and scientific visualization tools to organize, communicate, and present his findings clearly and professionally.

👨‍🏫 Teaching Experience

Ahmed has served as a teaching assistant at Cairo University since 2018, supporting undergraduate and postgraduate physics courses. His role includes lab instruction, tutorial sessions, and student mentoring, making complex theories accessible to learners. His earlier experience as a literacy teacher (2011–2012) equipped him with communication and leadership skills, further honed during his military officer training. Ahmed is known for fostering student engagement, using both traditional and digital platforms. His ability to blend academic rigor with student support makes him a well-rounded educator and a role model for aspiring Egyptian physicists.

🏅 Awards and Honors

While Ahmed has not listed formal awards, his academic journey reflects prestigious participation in elite programs like Zewail University’s Theoretical Physics School and BUE’s Plasma Physics Courses. His publications in indexed journals and the 2025 article in Scientific Reports signify a high level of peer recognition. His promotion within volunteer work and successful completion of military service also indicate commendable leadership and integrity. With growing citation counts and participation in national research programs, Ahmed has laid the groundwork for future awards in physics research, education, and innovation.

🚀 Legacy and Future Contributions

Ahmed is poised to become a leading researcher in theoretical and plasma physics. With experience in quantum mechanics, space physics, and analytical modeling, he is well-positioned to contribute to cutting-edge discoveries in astrophysics and particle interactions. He envisions deeper involvement in international collaborations, contributing to Egypt’s academic global presence. By mentoring future students and publishing impactful work, he aims to leave a lasting legacy of excellence, innovation, and service. His future may include Ph.D. studies, grant-winning research, and expanding his influence across global scientific communities.

Top Noted Publications

Bound state of heavy quarks using a general polynomial potential
Authors: H. Mansour, A. Gamal
Journal: Advances in High Energy Physics
Year: 2018
Meson spectra using Nikiforov-Uvarov method
Authors: H. Mansour, A. Gamal
Journal: Results in Physics
Year: 2022
Spin splitting spectroscopy of heavy Quark and Antiquarks systems
Authors: H. Mansour, A. Gamal, M. Abolmahassen
Journal: Advances in High Energy Physics
Year: 2020
Two body problems with magnetic interactions
Authors: H. Mansour, A. Gamal
Year: 2019
Spectroscopy of the Quarkonium Systems for Heavy Quarks
Authors: H. Mansour, A. Gamal
Year: 2020

Devika Phukan | The matter particles | Women Researcher Award

Published on 30/04/2025 by High Energy Physics

Dr. Devika Phukan | The matter particles | Women Researcher Award

Associate Professor at The Assam Royal Global University, Guwahati | India

Dr. Devika Phukan is a distinguished physicist and professor with a career spanning over 25 years in the domain of optics, photonics, and laser spectroscopy. Currently serving at Royal Global University, she is widely recognized for her research excellence, teaching dedication, and mentorship of doctoral scholars. Her journey is an inspiring example of a woman researcher who has significantly contributed to scientific advancement in applied physics.

Profile

📚 Early Academic Pursuits

Dr. Phukan began her academic journey at HFC Model School, Namrup (now BVFCL), followed by higher secondary education at Namrup Higher Secondary School. Her passion for physics took shape at Gargaon College, where she completed her B.Sc. in Physics, later pursuing M.Sc., M.Phil., and Ph.D. in Physics from Dibrugarh University. This solid academic foundation laid the groundwork for her career in laser physics and spectroscopy.

🧑‍🏫 Professional Endeavors

Dr. Phukan embarked on her professional career at Salt Brook Academy (1999–2001), later holding positions at Sri Revanna Siddheswaraya Institute of Technology and Rajiv Gandhi Institute of Technology, Bangalore. Since 2009, she has been an integral part of Royal Global University, contributing as a senior faculty member and researcher. Her professional trajectory reflects steady growth, leadership, and commitment to academic excellence.

🔬 Contributions and Research Focus

Dr. Phukan’s research interests include laser and nonlinear optics, optical communications, optoelectronics, and photonics, with a particular emphasis on laser spectroscopy and photonic crystal fibers. She has authored 13 peer-reviewed journal articles and several conference papers that address cutting-edge topics like soliton pulse propagation, stimulated Raman scattering, and Brillouin threshold analysis. Her recent work in ultrashort optical pulse transmission in photonic crystal fibers demonstrates her contributions to emerging technologies in fiber optics and communication systems.

🌐 Impact and Influence

Her work is cited in reputed journals such as the Journal of Optics, Pramana – Journal of Physics, and Asian Journal of Physics. Through her mentorship, two Ph.D. scholars have been awarded their degrees, while six more are currently pursuing research under her guidance. This highlights her influence in shaping the next generation of physicists and her ability to create a vibrant research ecosystem.

📈 Academic Citations and Research Skills

Dr. Phukan’s scholarly output reflects a strong command over experimental and computational techniques in nonlinear optics. While citation metrics (such as h-index) are not listed here, her consistent publication in peer-reviewed journals and collaborations with research scholars illustrate high research productivity and relevance. Her ability to translate complex physical phenomena into practical simulations and fiber models underscores her technical depth and analytical skills.

🏫 Teaching Experience

With expertise in Engineering Physics, Electrodynamics, Laser Physics, Optoelectronics, and Atomic & Molecular Physics, Dr. Phukan brings a rich interdisciplinary perspective to the classroom. Her teaching approach combines fundamental theory with real-world applications, making her courses engaging and highly relevant to modern physics and engineering students.

🏆 Awards and Honors

In recognition of her outstanding contribution to education, Dr. Phukan received the Best Faculty Award in 2015 from Gyan Sagar Institution (now Royal Global University). This honor reflects her excellence in teaching, research guidance, and dedication to institutional development.

🌟 Legacy and Future Contributions

Dr. Devika Phukan continues to inspire through her intellectual rigor, mentorship, and commitment to scientific innovation. She stands as a role model for women in STEM, particularly in physics and photonics. With her ongoing research, active Ph.D. supervision, and dedication to teaching, she is poised to make further groundbreaking contributions in fiber optics and laser-based technologies.

Publications Top Notes

Analysis of the effect of Stimulated Brillouin Scattering Threshold (SBST) and Stokes power in single mode optical fibre of different characteristic profile by simulation

Authors: Partha Pratim Borah, Devika Phukan, Anurup Gohain Barua
Journal: Journal of Optics
Year: 2025

Modelling and analysis of amplitude, spatial domain, spatial grids, width and time steps of soliton wave with reference to energy

Authors: Bidish Borah, Devika Phukan, Anurup Gohain Barua
Journal: Journal of Optics
Year: 2025

Exploring Structural and Propagation Features of Photonic Crystal Fibers for Superior Ultrashort Pulse Delivery

Authors: Priyanka Talukdar, Devika Phukan
Journal: Journal of Optics
Year: 2025

A Comparative Analysis of Basic and Enhanced Hole Structures in Photonic Crystal Fibers

Authors: P. Talukdar, D. Phukan
Journal: Journal of Optics
Year: 2024

A Comparative Exploration of Femtosecond Optical Pulse Propagation in Hollow Core Photonic Crystal Fiber and Optical Fiber

Author: Devika Phukan
Journal: Webology
Year: 2023

Yang Lei | High energy physics | Best Researcher Award

Published on 26/04/2025 by High Energy Physics

Prof. Yang Lei | High energy physics | Best Researcher Award

Associate Professor at Soochow University | China

Prof. Yang Lei is a distinguished theoretical physicist at the Institute of Advanced Study, Soochow University, specializing in black hole physics, holography, and quantum field theory. With extensive training and research experience from world-renowned institutions such as Peking University, Durham University, and Niels Bohr Institute, Prof. Lei is recognized for his cutting-edge work on AdS/CFT correspondence and non-relativistic holography, making him a rising voice in the global high-energy physics community.

Profile

🎓 Early Academic Pursuits

Prof. Lei began his academic journey at the prestigious Yuanpei College, Peking University, earning his Bachelor’s degree in 2011, with a second major in Mathematics a testament to his foundational strength in formal theoretical reasoning. He pursued his MSc in Particles, Strings, and Cosmology at Durham University, supervised by Simon Ross, followed by a PhD in Mathematics, with a focus on Singularities in holographic non-relativistic spacetimes an area of deep relevance in modern quantum gravity.

👨‍🔬 Professional Endeavors

Following his PhD, Prof. Yang Lei embarked on an impressive journey through several prestigious postdoctoral positions at top-tier institutions including the Institute of Theoretical Physics, CAS, University of the Witwatersrand, Niels Bohr Institute, and Kavli Institute of Theoretical Science (KITS), UCAS. In 2022, he was appointed as an Associate Professor at Soochow University, where he continues to lead cutting-edge research and mentor young physicists, contributing meaningfully to the field of theoretical high-energy physics.

🔬 Contributions and Research Focus

Prof. Lei’s research is centered on black holes, holography, AdS/CFT duality, non-relativistic limits of field theories, and quantum gravity. His studies on spin matrix theory, EVH (Extremal Vanishing Horizon) black holes, and modular factorization in superconformal indices showcase his theoretical versatility and original insights into foundational questions of physics.

🌍 Impact and Influence

Prof. Lei has delivered more than 20 invited talks at prestigious international conferences, including String 2016, Tsinghua University, and Joburg Workshop on String Theory. His presence at academic forums and black hole workshops affirms his growing influence in the global theoretical physics community. He also demonstrates leadership in academic outreach through organizing workshops like the SUIAS HEP Workshop and KITS Summer School, promoting collaborative learning in high-energy physics.

📈 Academic Citations

While specific citation metrics were not detailed in the current profile, Prof. Lei’s consistent conference participation, grants awarded, and long-term collaborations with major institutions indicate a highly regarded academic presence, especially within holography and black hole research circles.

🛠️ Research Skills

Prof. Yang Lei possesses a sophisticated toolkit of theoretical and mathematical techniques, including AdS/CFT duality calculations, non-relativistic quantum field theory, spin matrix theory analysis, black hole thermodynamics, modular invariance, and superconformal indices, as well as advanced perturbation theory and resurgence. These research capabilities enable him to tackle some of the most complex and unsolved problems in quantum gravity and holographic dualities, reinforcing his role as a leading thinker in high-energy theoretical physics.

👨‍🏫 Teaching Experience

Prof. Yang Lei is a highly engaged educator, teaching core physics courses in English at Soochow University, such as Quantum Mechanics (Autumn 2023) and Solid State Physics (Spring 2023). He also contributed to the KITS Summer School, guiding students on black hole microstates and the information paradox. During his PhD, he served as a Teaching Assistant at Durham University, showcasing his well-rounded dedication to both academic instruction and research mentorship in theoretical physics.

🏅 Awards and Honors

Prof. Yang Lei‘s exceptional contributions have earned him prestigious awards and competitive grants, such as the National Natural Science Foundation of China Young Researcher Grant (2024–2026), the China Postdoc Surface Grant (2021–2022), and the Overseas Postdoc Introduction and Communication Grant (2016–2018). He also received the Peter Rowe Memorial Postgraduate Prize (2012) and the Durham Teaching and Learning Award (UK HEA Associate Fellowship, 2016). These accolades highlight his scholarly excellence, peer recognition, and international collaboration.

🌟 Legacy and Future Contributions

With a solid academic foundation, global collaborations, and an ever-expanding research portfolio, Prof. Yang Lei is on a trajectory to become a leading voice in quantum gravity and holography. His future contributions are expected to shape our understanding of black hole dynamics, non-AdS holography, and quantum field theories under extreme conditions. He is well-positioned to continue his impactful journey as a scholar, educator, and thought leader in modern theoretical physics.

Publications Top Notes

Conformal mapping of non-Lorentzian geometries in SU(1, 2) Conformal Field Theory

Authors: Stefano Baiguera, Troels Harmark, Yang Lei, Ziqi Yan
Journal: Journal of High Energy Physics
Year: 2025

Modularity in d > 2 free conformal field theory

Authors: Yang Lei, Sam van Leuven
Journal: Journal of High Energy Physics
Year: 2024

Quasinormal modes of C-metric from SCFTs

Authors: Yang Lei, Hongfei Shu, Kilar Zhang, Ruidong Zhu
Journal: Journal of High Energy Physics
Year: 2024

Modular factorization of superconformal indices

Authors: Vishnu Jejjala, Yang Lei, Sam van Leuven, Wei Li
Journal: Journal of High Energy Physics
Year: 2023

The Panorama of Spin Matrix theory

Authors: Stefano Baiguera, Troels Harmark, Yang Lei
Journal: Journal of High Energy Physics
Year: 2023

Jerzy Dryzek | The matter particles | Excellence in Research Award

Published on 15/04/2025 by High Energy Physics

Prof. Dr. Jerzy Dryzek | The matter particles | Excellence in Research Award

Professor at Institute of Nuclear Physics PAS | Poland

Prof. Jerzy Dryzek is a renowned physicist specializing in solid state physics and positron annihilation spectroscopy, with over four decades of academic and research experience. A pioneer in experimental physics in Poland, he has played a central role in developing advanced laboratory techniques in the field, particularly at the Institute of Nuclear Physics PAN in Kraków. His extensive international collaborations and leadership in scientific projects underscore his lasting influence in materials science and nuclear physics.

Profile

📚 Early Academic Pursuits

Dr. Dryzek embarked on his academic journey with a Master’s degree from the Academy of Mining and Metallurgy in Kraków (1975–1980), where he focused on the “Technology of thin films.” He simultaneously pursued another Master’s in Nuclear Physics from the Jagiellonian University in Kraków (1977–1981), conducting a thesis on the “Measurement of the positron lifetime in silver films.” His deep interest in positron-related phenomena led to his Ph.D. (1981–1986) in Solid State Physics, with a dissertation titled “Electrical conductivity and electrical properties of thin metallic films (Au, Ag, Cu).”

🧪 Professional Endeavors

Since 1987, Dr. Dryzek has held a permanent position at the Institute of Nuclear Physics in Kraków, where he has been instrumental in establishing and expanding the positron annihilation laboratory. His international exposure includes scientific visits to Münster University, Germany, Helsinki University of Technology, Finland, Texas Christian University, USA, and collaborative research at Chalmers University of Technology, Sweden, and KEK in Tsukuba, Japan. He also served as Professor at the University of Zielona Góra (2005–2009) and Opole University (2009–2014).

🔬 Contributions and Research Focus

Dr. Dryzek’s research focus lies in positron annihilation spectroscopy, with special emphasis on pulsed positron beams, two-dimensional Doppler broadening, and positron annihilation in flight. He has led multiple national and international research projects, exploring grain boundaries, resonance trapping, and nonhomogeneous systems. His innovative work includes the construction of Doppler broadening spectrometers and advancing methods of studying subsurface zones in metallic alloys.

🌍 Impact and Influence

Dr. Dryzek’s impact extends beyond laboratory research. Through his leadership in the Centre of Excellence ADREM, he contributes to applying physics to human health and environmental safety. His collaborative initiatives have fostered German-Polish scientific cooperation, and his lectures and research work have enriched institutions in Europe, the USA, and Japan. His influence is particularly notable in shaping positron annihilation research infrastructure in Poland.

📖 Academic Cites

Dr. Dryzek’s work has been widely cited in peer-reviewed journals and international conferences, especially in the context of tribology, surface studies, and positron annihilation in condensed matter. His habilitation thesis in 2001, titled “Positron annihilation characteristics in condensed matter,” laid the foundation for his recognition as an Assistant Professor and later Full Professor in 2012.

🛠️ Research Skills

Dr. Dryzek demonstrates expertise in experimental physics, with deep proficiency in positron annihilation techniques, Doppler spectroscopy, and positron beam construction. He is also skilled in research project management, having led numerous scientific grants, coordinated interdisciplinary networks such as POSMAT, and conducted technology-based studies on materials like polymers, metals, and minerals.

👨‍🏫 Teaching Experience

Alongside research, Dr. Dryzek has actively contributed to academic teaching, notably as a lecturer in physics at the Pedagogical University in Kraków (1990–1992) and as a visiting professor at international institutions. He played a significant role in educating students from Münster University, fostering cross-border scientific knowledge exchange under the German-Polish Collaboration framework.

🏆 Awards and Honors

Among his recognitions are several competitive research grants awarded by the Committee of Scientific Research in Poland, European Commission (COST Programs), and German-Polish Foundations. His leadership in teaching grants, instrument development, and joint international projects reflects the high regard of his contributions to science and education.

🔮 Legacy and Future Contributions

With a legacy rooted in scientific innovation, academic mentorship, and international collaboration, Dr. Dryzek has established himself as a pioneer in positron physics. His work continues to inspire future generations, and his efforts in network coordination, grant acquisition, and technical development ensure ongoing contributions to the fields of solid-state physics and material science. His vision for advancing positron annihilation studies remains a guiding light for both theoretical and applied physics communities.

Publications Top Notes

Superior barrier performance, mechanical properties and compostability in relation to supramolecular structure of renewable based poly(trimethylene furanoate) modified with suberic acid

Authors: A. Zubkiewicz, A. Szymczyk, J. Dryzek, V.M. Siracusa, N. Lotti
Journal: European Polymer Journal
Year: 2025

Positronium Formation on the Rhenium Surface Studied by Slow Positron Measurements

Authors: J. Dryzek, M.O. Liedke, M. Butterling, E. Dryzek
Journal: Physica Status Solidi (B) Basic Research
Year: 2025

Influence of flexible segment length on the phase structure and properties of poly(hexamethylene 2,5-furandicarboxylate)-block-biopolytetrahydrofuran copolymers

Authors: S. Paszkiewicz, K. Walkowiak, I. Irska, Z.J. Rozwadowski, J. Dryzek
Journal: Journal of Applied Polymer Science
Year: 2024

Positron Annihilation and EBSD Studies of Subsurface Zone Created During Friction in Vanadium

Authors: J. Dryzek, M.X. Wróbel
Journal: Journal of Tribology
Year: 2023

Influence of the positron implantation profile on the study of the defect depth distribution by the positron annihilation technique

Authors: J. Dryzek
Journal: Journal of Applied Physics
Year: 2023

Mohammed salah Abd El minem | High energy physics | Physics Excellence in Industry Award

Published on 05/04/2025 by High Energy Physics

Dr. Mohammed salah Abd El minem | High energy physics | Physics Excellence in Industry Award

Assistant Professor at Physics Department, Faculty of Science, Al-Azhar University, Egypt

Mohamed Salah Abdel-Moneim Youssef is an Assistant Lecturer at the Department of Physics at Al-Azhar University, Assiut, Egypt. He holds a Bachelor’s degree in Physics (2012) and a Master’s degree from Al-Azhar University with a focus on optical properties of BiI3 thin films. He has been actively involved in teaching, research, and scientific activities, contributing significantly to the field of material science and optoelectronics.

Profile

Early Academic Pursuits 🎓

Mohamed began his academic journey at Al-Azhar University, where he earned his Bachelor’s degree in Physics in 2012. His academic prowess and commitment to the field were recognized when he was appointed as a Demonstrator in the Department of Physics in 2018. This early appointment demonstrated his passion for physics and his readiness to contribute to the academic community.

Professional Endeavors 🏢

Since 2018, Mohamed has worked as an Assistant Lecturer at Al-Azhar University, where he teaches both undergraduate and preparatory dental students. His teaching responsibilities include specialized courses such as Solid-State Physics, Electronics, Semiconductors, Nuclear Physics, and Modern Physics. His teaching experience reflects his broad knowledge of physics and his ability to simplify complex concepts for diverse student groups.

Contributions and Research Focus 🔬

Mohamed’s primary research focuses on material science and optoelectronics, particularly the structural and optical properties of thin films. His Master’s thesis was centered around the impact of gamma-irradiation on BiI3 thin films, aiming to improve optoelectronic devices. Two notable publications emerged from this research, contributing to the understanding of optical parameters in photovoltaic and nonlinear applications.

His PhD research continued to explore materials science, specifically the substitution of BaTiO3 in lead borosilicate glass for ultrasonic applications, published in the Journal of Materials Science: Materials in Electronics.

Impact and Influence 🌍

Through his research and academic contributions, Mohamed has played a key role in advancing the study of materials for optoelectronic applications. His work on BiI3 thin films and BaTiO3-substituted borosilicate glass has the potential to impact industries related to photovoltaics, optoelectronics, and ultrasonic technologies. By focusing on improving material properties, his research has practical applications that can enhance the performance and efficiency of various technologies.

Academic Cites 📚

Mohamed’s research has garnered recognition in prominent scientific journals. His paper on BaTiO3 substitution in borosilicate glass was published in the Journal of Materials Science: Materials in Electronics (35 (22), 1534). Additionally, his Master’s research resulted in two significant papers that have been well-received in the field of optoelectronics. These publications contribute to the growing body of knowledge in the field of materials science and physics.

Research Skills 🔍

Mohamed is proficient in a variety of research methodologies, including material characterization techniques such as ball milling, gamma-irradiation, and thin film deposition. He has hands-on experience in structural and optical characterization of materials, specifically in the context of optoelectronic applications. His analytical skills and ability to synthesize complex data enable him to draw meaningful conclusions that enhance our understanding of material properties.

Teaching Experience 🎓

In addition to his research activities, Mohamed has been actively involved in teaching physics since 2018. He has taught a variety of courses, including both general physics and specialized courses in solid-state physics, semiconductors, and nuclear physics. His ability to communicate complex ideas clearly and his commitment to educating the next generation of scientists demonstrate his dedication to academic excellence.

Legacy and Future Contributions 🚀

Looking forward, Mohamed is poised to continue making significant contributions to materials science and optoelectronics. His ongoing research, particularly in optical and ultrasonic technologies, holds immense potential for future industrial applications. As he continues to expand his research, collaborate with other researchers, and enhance his teaching, Mohamed will likely leave a lasting impact on both the academic and industrial communities.

Publications Top Notes

Structural and optical investigations of multi-component lead-borosilicate glasses containing PbO, BaO, and TiO2

Authors: M. Salah, El Sayed Moustafa, A.A. Showahy
Journal: Optical Materials
Year: 2025

Influence of BaTiO3 substitution on structural and thermal response of lead borosilicate glass for ultrasonic applications

Authors: M. Salah, El Sayed Moustafa, A.A. Showahy
Journal: Journal of Materials Science: Materials in Electronics
Year: 2024

Influence of γ-irradiation dose on the structure, linear and nonlinear optical properties of BiI3 thick films for optoelectronics

Authors: AM Abdelnaeim, M Salah, E Massoud, A EL-Taher, ER Shaaban
Journal: Digest Journal of Nanomaterials & Biostructures (DJNB)
Year: 2022

Optical parameters of various thickness of bismuth (III) iodide thin films for photovoltaic and nonlinear applications

Authors: M Salah, A Abdelnaeim, S Makhlolf, A El-Taher, ER Shaaban
Journal: International Journal of Thin Film Science & Technology
Year: 2022

A new one-parameter lifetime distribution and its regression model with applications

Authors: MS Eliwa, E Altun, ZA Alhussain, EA Ahmed, MM Salah, HH Ahmed, …
Journal: PLOS ONE
Year: 2021

SHARJEEL AHMED | Particle Experiments | Best Researcher Award

Published on 24/03/202524/03/2025 by High Energy Physics

Dr. SHARJEEL AHMED | Particle Experiments | Best Researcher Award

PhD Researcher at University of Science and Technology China (USTC), Chinese Academy of Science,Institute of Metal Research (CAS, IMR) | China

Dr. Sharjeel Ahmed is a PhD Researcher at the University of Science and Technology China (USTC), Chinese Academy of Science, Institute of Metal Research (CAS, IMR), China. He completed his master’s degree from Donghua University (DHU), China, and earned his PhD from USTC. His research specializes in photoresponsive nanomaterials and smart fluorescence coatings, focusing on oxygen-deficient nanomaterials for photocolorswitching properties and early-stage corrosion detection.

Profile

Early Academic Pursuits 🎓

Dr. Ahmed’s academic journey began at Donghua University (DHU), where he obtained his master’s degree. Building on this foundation, he continued his research at USTC, a leading institution in nanotechnology and materials science. His early academic work laid the groundwork for his specialization in nanomaterials and coating technologies that can respond to environmental triggers like light, opening new avenues in corrosion detection and smart materials.

Professional Endeavors 🏢

Throughout his professional career, Dr. Ahmed has collaborated with eminent scholars, such as Prof. Liu Fuchun from Northwestern Polytechnical University, and has contributed significantly to research projects focused on the preparation technology of micro-nano structures and self-repair mechanisms for coatings. His work bridges academic research and industry applications, ensuring his contributions are impactful both in laboratories and in practical solutions.

Contributions and Research Focus 🔬

Dr. Ahmed’s main research interests lie in photoresponsive nanomaterials, particularly in smart fluorescence coatings and early-stage corrosion detection. He has developed oxygen-deficient nanomaterials for photocolorswitching properties, which react to light stimuli to produce fluorescent signals when exposed to corrosive environments. These innovations have been pivotal in solving the limitations of traditional coatings, which lack intelligent early-warning systems.

He has authored 21 research articles in high-impact journals, including top publications like Chemical Engineering Journal, Nanoscale, and Colloids and Surfaces A. Additionally, he holds a patent (CN111394094-A; CN111394094-B) for a dual-band light-responsive reversible color solution, showcasing his innovative contributions to smart materials.

Impact and Influence 🌍

Dr. Ahmed’s research has had a substantial impact on materials science, especially in the development of smart coatings for corrosion detection. His fluorescent smart coatings are expected to revolutionize industries such as aerospace, automotive, and marine engineering, where early detection of corrosion can prevent extensive damage and improve material longevity. His work has been widely cited and continues to influence both academic research and practical applications in coatings technology.

Academic Cites 📚

With 422 citations and an h-index of 10, Dr. Ahmed has garnered recognition for his influential contributions to the field of nanomaterials and coatings technology. His papers, particularly as the first author, in journals such as Materials Chemistry and Physics and Journal of Materials Science and Technology, reflect the significant impact of his work within the scientific community.

Research Skills 🛠️

Dr. Ahmed has mastered several advanced techniques in nanomaterials preparation, including synthesis of oxygen-deficient materials, fluorescence analysis, and computational modeling. His research is not only grounded in experimental work but also utilizes computational science to predict the behavior of materials under various environmental conditions. His ability to combine both experimental and computational approaches gives his work a robust scientific foundation.

Teaching Experience 👨‍🏫

Though primarily a researcher, Dr. Ahmed’s teaching experience is an integral part of his professional journey. At USTC, he has contributed to educating the next generation of materials scientists, particularly in the area of nanomaterials and smart coatings. He mentors students and provides them with invaluable guidance on research methodology and cutting-edge technologies in nanotechnology.

Awards and Honors 🏅

Dr. Ahmed’s excellence in research has earned him recognition in the form of publications in top-tier journals and inclusion in major collaborative projects. Although specific awards are not listed, his patent and high citation index suggest that his work is highly respected within the scientific community. His ongoing research and contributions place him in a strong position to receive further academic and professional accolades.

Legacy and Future Contributions 🔮

Dr. Sharjeel Ahmed is paving the way for future innovations in smart materials, particularly in nanomaterials that are both responsive and intelligent. As his work continues to evolve, it will likely contribute to environmentally sustainable and cost-effective solutions for industries ranging from coatings and corrosion detection to advanced textiles. His future endeavors may include expanding his patent portfolio, collaborating with industries, and broadening his research into emerging areas such as energy storage materials or biodegradable coatings.

Publications Top Notes

A review of advancement in fluorescence-based corrosion detection for metals and future prospects
Authors: Sharjeel Ahmed, Hongwei Shi, Mustehsin Ali, Imran Ali, Fuchun Liu, En-Hou Han
Journal: Journal of Materials Science & Technology
Year: 2025
Epoxy coating containing CoMOF@MBT metal-organic framework for active protection of aluminum alloy
Authors: Nwokolo, Izuchukwu K.; Shi, Hongwei; Ikeuba, Alexander I.; Liu, Fuchun; Ahmed, Sharjeel; Zhang, Wanyu
Journal: Surface and Coatings Technology
Year: 2024
Modified Graphene Micropillar Array Superhydrophobic Coating with Strong Anti-Icing Properties and Corrosion Resistance
Authors: Zhang, Wanyu; Liu, Fuchun; Li, Yushan; Chen, Tao; Nwokolo, Izuchukwu Kenneth; Ahmed, Sharjeel; Han, En-Hou
Journal: Coatings
Year: 2024
UV light-triggered fluorescence corrosion sensing coatings for AA2024-T3 based on 8-hydroxyquinline loaded vanadium oxide nanorods
Authors: Sharjeel Ahmed
Journal: Colloids and Surfaces A: Physicochemical and Engineering Aspects
Year: 2024
Catalytic degradability and anti-permeability of peelable coating based on organophosphate nerve agent simulants
Authors: Gao, Ningjie; Ahmed, Sharjeel; Zhang, Wanyu; Li, Jiwen; Liu, Fuchun
Journal: Colloids and Surfaces A: Physicochemical and Engineering Aspects
Year: 2023

Shewa Getachew | High energy physics | Editorial Board Member

Published on 13/03/202513/03/2025 by High Energy Physics

Mr. Shewa Getachew | High energy physics | Editorial Board Member

Lecturer at Wolkite University | Ethiopia

Shewa Getachew Mamo is a dedicated Physics Lecturer and researcher with a specialized focus on optical properties of nanocomposites, material science, refractive index, and group velocity. Passionate about advancing scientific knowledge, he is committed to both academic excellence and innovative research in the realm of condensed matter physics. His expertise extends to investigating local field enhancements, optical properties of nanostructures, and exploring nanoparticle-based materials and geometries.

Profile

Early Academic Pursuits 🎓

Shewa’s academic journey began at Wolkite University, where he earned his Bachelor’s degree in Physics (2016-2019) and later pursued a Master’s degree in Condensed Matter Physics (2022-2023). Throughout his education, he developed a strong foundation in experimental and theoretical physics, which propelled him into a career of teaching and research in the field.

Professional Endeavors 💼

Currently, Shewa serves as a Physics Teacher at Wolkite University (since December 2023). In this role, he is responsible for preparing and presenting undergraduate and sometimes postgraduate courses in various areas of physics, including mechanics, electromagnetism, thermodynamics, quantum mechanics, and material science. He plays a vital role in designing curricula, developing lesson plans, and selecting relevant textbooks to ensure effective learning outcomes. His academic influence extends to advising students on academic matters and guiding them through research projects.

Contributions and Research Focus 🔬

Shewa’s research focus is primarily on the optical properties of core-shell spherical nanocomposites and local field enhancements. His research aims to explore the interaction between optical fields and nanocomposites, as well as investigating the influence of depolarization on the local field enhancement factor in passive and active composites with pure metal spheroidal nanoinclusions. One of his notable research areas includes optical bistability in nanoparticle composites and the role of tunable dielectric cores in cylindrical core-shell nanocomposites.

Impact and Influence 🌍

Shewa’s research has led to significant contributions to the field of material science and nanotechnology, specifically in understanding the optical properties of nanostructured materials. His findings have been widely discussed in the scientific community, with numerous publications in prominent journals. He is committed to staying updated with the latest advancements in condensed matter physics and nanotechnology, consistently striving to push the boundaries of existing scientific knowledge.

Academic Cites 📚

Shewa’s work has been widely cited, with his contributions being recognized across several prestigious journals. His publications include studies such as:

Tsegaye, A., & Getachew, S. (2024). “Investigation Optical Properties of ZnTe@Ag Core-Shell Spherical Nanocomposites Within Varies Dielectric Host Matrices”. Advances in Materials, 13(4), 80-91.
Getachew, S. (2024). “Effect of Tunable Dielectric Core on Optical Bistability in Cylindrical Core-Shell Nanocomposites”. Advances in Condensed Matter Physics, 2024(1), 9911970.
Getachew, S. (2024). “Investigation of Refractive Index and Group Velocity Metal Coated Dielectric Spherical Nanocomposites”. Iranian Journal of Physics Research, 24(3), 75-87.

His academic citations are a testament to his research impact and scientific contributions.

Research Skills 🔍

Shewa possesses advanced knowledge in condensed matter physics, with strong analytical and problem-solving skills. He is proficient in a range of experimental and theoretical physics techniques. His technical expertise includes programs such as Matlab, Word, Excel, PowerPoint, OpenOffice, and Latex, and he is skilled in computer languages like Python, Fortran, and Gnuplot. He also has experience with Unix systems and software like xmgrace, showcasing his comprehensive research toolset.

Teaching Experience 📘

Shewa’s teaching experience is extensive, having taught various physics courses at the undergraduate and postgraduate levels. He designs engaging lesson plans and works closely with students to help them grasp key concepts in physics. By preparing and grading exams, assignments, and laboratory reports, he ensures students receive constructive feedback for their academic growth. His role as a mentor goes beyond the classroom, advising students on their academic and career paths and supervising their research projects.

Legacy and Future Contributions 🌱

Shewa is committed to leaving a lasting legacy in the fields of nanotechnology, material science, and condensed matter physics. His ongoing research will likely continue to make valuable contributions to the understanding of optical properties and nanocomposite materials. Looking ahead, Shewa is dedicated to mentoring the next generation of scientists and physicists, sharing his knowledge and advancing the boundaries of nanophysics and material science research. Through continuous publication and collaboration, his work is set to influence the scientific community for years to come.

Publications Top Notes

Effect of Tunable Dielectric Function of the Core on Optical Bistability in Small Spherical Metal-Dielectric Composite

Authors: Hawi Aboma, Shewa Getachew, Sisay Shewamare
Journal: Ethiopian Journal of Applied Sciences
Year: 2025

Investigation Optical Properties of ZnTe@Ag Core-Shell Spherical Nanocomposites Within Varies Dielectric Host Matrices

Authors: Tsegaye Atnaf, Shewa Getachew
Journal: Advances in Materials
Year: 2024

Investigating the Optical Bistability of Pure Spheroidal Nanoinclusions in Passive and Active Host Matrices

Authors: Shewa Getachew, Girma Berga
Journal: Canadian Journal of Physics
Year: 2024

Investigation of Refractive Index and Group Velocity Metal Coated Dielectric Spherical Nanocomposites Within Passive and Active Dielectric Cores

Authors: Shewa Getachew
Journal: Iranian Journal of Physics Research (IJPR)
Year: 2024

Effect of Tunable Dielectric Core on Optical Bistability in Cylindrical Core–Shell Nanocomposites

Authors: Shewa Getachew, Junjie Li
Journal: Advances in Condensed Matter Physics
Year: 2024

Sanae ZRIOUEL | Computational Particle Physics | Women Researcher Award

Published on 12/03/2025 by High Energy Physics

Prof. Dr. Sanae ZRIOUEL | Computational Particle Physics | Women Researcher Award

Cadi Ayyad university | Morocco

Professor Dr. Sanae Zriouel is an esteemed Associate Professor of Physics at the Faculty of Sciences and Technology, Cadi Ayyad University in Marrakech, Morocco. With a deep passion for Mathematical Physics and cutting-edge research in nanomaterials, Dr. Zriouel has made significant contributions in various areas of condensed matter physics. Her academic journey spans multiple prestigious institutions in Morocco, and she has established herself as a key figure in the academic and scientific communities.

Profile

Early Academic Pursuits 📚

Dr. Zriouel’s journey began with a Bachelor’s degree in Physical Science from Ibn Tofail University, Morocco, followed by a Master’s degree in Mathematical Physics at Mohammed V University, Morocco. Her academic prowess was evident from early on, as she earned the highest distinctions in her Master’s and later in her PhD in Mathematical Physics from the same institution. She furthered her education with an Engineer’s degree in Electro-mechanics from ENSMR, Rabat, Morocco.

Professional Endeavors 🌍

Dr. Zriouel’s career in academia includes various teaching and research roles. She is currently an Associate Professor at Cadi Ayyad University, where she has been since 2022. Prior to this, she held positions as an Assistant Professor at Sultan Moulay Slimane University, Beni Mellal, and worked as a Dr. Researcher at Mohammed V University, where she developed a profound interest in nanomaterials and theoretical physics. Her roles are not limited to academia; she has been actively involved in multiple administrative responsibilities, serving as an elected member of university councils and commissions that contribute to the growth and development of scientific research and academic programs.

Contributions and Research Focus 🔬

Dr. Zriouel’s research interests include Graphene and related materials, the physics of 2D nanostructures, topological insulators, and chalcopyrite semiconductors. She has worked extensively on quantum dots, ab-initio calculations, and Monte Carlo simulations. Her work on spintronic properties, magnetocaloric effects, and the phase transitions of new materials has been instrumental in advancing our understanding of the physical properties of materials at the nano-scale. She has authored over 10 impactful scientific papers, contributing significant knowledge to materials science and theoretical physics.

Impact and Influence 🌟

Dr. Zriouel has had a far-reaching impact on both research and education. Her work has influenced various collaborations with institutions such as the Institut Néel, CNRS, Yildiz Technical University, and Abdus Salam International Centre for Theoretical Physics. Additionally, she has received recognition as a scientific visitor to prestigious institutions across the globe, including in Turkey, Italy, and France. Her leadership roles, including coordinating projects like the Extended African Network for Advanced 2D Materials, demonstrate her commitment to scientific collaboration and her efforts to foster an international exchange of ideas.

Academic Cites 📑

Dr. Zriouel’s research papers have been widely cited in the scientific community. Her work on half-metallic ferromagnetic properties, phase transitions in graphene, and DFT-based materials simulations has paved the way for significant advancements in spintronics and quantum materials. Notable publications include her contributions to Computational Condensed Matter and Modern Physics Letters. Her research continues to be cited globally, influencing the fields of nanotechnology, magnetism, and advanced materials.

Research Skills 🧠

Dr. Zriouel possesses a remarkable set of research skills that span theoretical physics and computational simulations. She is proficient in C++, Fortran, MATLAB, and other programming languages used for numerical simulations and ab-initio calculations. Her expertise includes tools like Quantum Espresso, LAMMPS, Wien2k, and SPRKKR, which she uses to explore the properties of advanced graphene-based materials, quantum dots, and other nanomaterials.

Teaching Experience 🎓

Dr. Zriouel is a dedicated educator, teaching a wide array of courses in physics at both the undergraduate and graduate levels. She teaches courses such as Quantum Mechanics, Electromagnetism, and Thermodynamics. Over the years, she has supervised more than 30 students, including Bachelor’s, Master’s, and PhD candidates. Her mentorship extends beyond coursework, as she is involved in guiding students in their research projects and helping them navigate the world of theoretical physics and computational modeling.

Awards and Honors 🏆

Dr. Zriouel has been recognized for her academic excellence with several prestigious awards. Notable honors include being awarded Full Membership of the Organization for Women in Science for the Developing World (OWSD) in 2020, and receiving the Award of Excellence from the National Center of Scientific Research of Morocco in 2014. In addition, she was the Valedictorian of both her Engineering program and her Physics graduate program. These accolades underline her exceptional academic achievements and her dedication to the advancement of science.

Legacy and Future Contributions 🔮

Dr. Zriouel’s legacy lies not only in her groundbreaking research but also in the impact she has had on the next generation of scientists. She has inspired and mentored numerous students, guiding them toward their own successful academic and research careers. Her contributions to the field of nanomaterials and quantum physics are set to influence future developments in green energy, quantum computing, and material science.

Publications Top Notes

In-depth study of double perovskite Sr₂NiTaO₆: Structural, electronic, thermoelectric, and spintronic properties for sustainable and high-performance applications

Authors: JU Ahsan, MR Rather, K Sultan, S Zriouel, E Hlil
Journal: Computational Condensed Matter
Year: 2025

Investigating thermodynamic and magnetic behavior of graphullerene-like nanostructure using Monte Carlo techniques

Authors: S Zriouel, A Mhirech, B Kabouchi, L Bahmad, Z Fadil, FM Husain
Journal: Philosophical Magazine
Year: 2025

Magnetic properties and magnetocaloric effects of the graphullerene-like 4-(Mg₄C) nanostructure: A Monte Carlo study

Authors: N Saber, S Zriouel, A Mhirech, B Kabouchi, L Bahmad, Z Fadil
Journal: Modern Physics Letters B
Year: 2024

Phase transitions and critical dielectric phenomena of janus transition metal oxides

Authors: S Zriouel
Journal: Materials Science and Engineering: B
Year: 2021

Effect of p–d hybridization on half metallic properties of some diluted II–IV–V₂ chalcopyrites for spintronic applications

Authors: S Zriouel, B Taychour, B Drissi
Journal: Physica Scripta
Year: 2020

Valeriu Savu | High energy physics | Best Researcher Award

Published on 04/03/2025 by High Energy Physics

Dr. Valeriu Savu | High energy physics | Best Researcher Award

INOE2000 | Romania

Valeriu Savu is a highly accomplished Technological Development Engineer with an extensive career spanning over 35 years. Currently working at the National Institute of Research and Development for Optoelectronics (INOE2000) in Măgurele, Romania, Savu has demonstrated significant expertise in research and development of electronic modules and optical equipment. His work primarily revolves around lasers, optical fibers, and nanotechnology, and his contributions have been instrumental in advancing applications within telecommunications and military systems.

Profile

Early Academic Pursuits 🎓

Savu’s academic journey began at the Polytechnic Institute of Bucharest, where he obtained a Bachelor’s degree in Electronics and Telecommunications in 1986. Later, he pursued a Master’s degree in Nanostructures and Unconventional Engineering Processes at the Polytechnic University of Bucharest (2012-2014). This was followed by the completion of his PhD in Engineering Sciences in 2007-2014 with a thesis on radio pulse selection and processing. His doctoral work focused on cosmic ray detection, emphasizing advanced methodologies for high-precision data processing in complex environments like saline settings.

Professional Endeavors 💼

Savu’s professional career began in 1990 with the Research Design Institute of Electromechanics ICPEM, where he worked on military electronics systems. From 2000 to 2005, he served as an Engineer at Elettra Communications S.A., contributing to the telecommunications sector with an emphasis on testing and verification of military-grade equipment. Since 2005, Savu has been at INOE2000, leading the Department of Engineering Design and Technology, where he focuses on cutting-edge optical devices and laser systems. His experience spans across the creation of advanced lasers, fiber optics, and sensor technologies for both commercial and military applications.

Contributions and Research Focus 🔬

Valeriu Savu has made notable contributions to several fields, including laser technology, optical fibers, and military electronics. He is an expert in the design, testing, and characterization of laser systems, photovoltaics, and nanostructured materials. One of his major research focuses includes Cherenkov radiation detection and the application of nanotechnology for optical sensing. Savu has been involved in the development of innovative sensors, including UV sensors for organic materials and high-voltage power supplies used in medical laser systems.

Impact and Influence 🌍

Savu’s work has significantly advanced the field of optoelectronics and has been applied in medical, military, and telecommunications sectors. He has also patented several devices, including laser protection systems and cosmic radiation detectors for specialized environments like salt mines. His innovative solutions continue to influence scientific research and engineering practices globally.

Academic Cites 📚

Savu’s scholarly work has earned recognition within the academic community, with numerous scientific articles published in prominent journals. His research has appeared in the Romanian Journal of Physics, Romanian Journal of Biophysics, and other prestigious publications. He has contributed to international conferences and his research papers are frequently cited by peers. Notable academic publications include his studies on the Nd:YAG laser for microsurgical ophthalmology and breast tissue investigation using diffuse optical tomography.

Research Skills 🧑‍💻

Valeriu Savu is highly skilled in experimental research, device testing, and the design of optical systems. He has expertise in advanced signal processing, laser characterization, and system integration. Savu’s proficiency with software tools such as OrCAD, FabMaster, NI Multisim, and OriginLab has made him a highly versatile researcher, capable of modeling complex systems and optimizing experimental designs. His experience spans across lab-based investigations, field tests, and cross-disciplinary applications of advanced technologies.

Teaching Experience 🍏

While Savu’s career has been predominantly research-driven, his extensive academic background and technical expertise have made him a valuable contributor to teaching and training in the field of optoelectronics. He has actively mentored students at various stages of their careers, guiding them through engineering problems and sharing his knowledge of cutting-edge technologies. His role as a PhD advisor and involvement in academic projects has contributed to the development of future scientists and engineers in the optoelectronics field.

Awards and Honors 🏆

Throughout his career, Savu has received various certificates and awards recognizing his contributions to both military and civilian applications. His innovative work has been acknowledged by organizations and research institutions, and he has earned several certificates of innovation for his unique designs and systems. Savu’s patents are a testament to his creative and practical contributions to optical technology and laser applications.

Legacy and Future Contributions 🔮

Savu’s extensive body of work leaves a lasting legacy in the field of optoelectronics, particularly in laser applications, telecommunications, and military technology. His ongoing work in cosmic radiation detectors and laser safety will likely influence future technological advancements in various sectors. As he continues to develop new systems and devices, his future contributions are expected to further shape the landscape of optical technology and engineering research.

Patents and Innovations 💡

Valeriu Savu’s patents reflect his ingenuity and forward-thinking approach to technology. Some of his recent applications include systems for automated discharge protection in laser pumps and power supply disconnect systems. His patents focus on enhancing the safety and efficiency of electronic systems, laser devices, and telecommunications infrastructure, with an emphasis on providing innovative solutions for user protection and optimal performance in real-world applications.

Publications Top Notes

Power Dissipation Reduction System for Adjustable Power Supplies

Authors: V Savu, MI Rusu, D Savastru, D Manea
Journal: Energies
Year: 2025

Analysis of a high-power laser thermal phenomena induced onto a composite made UAV/drone in flight

Authors: D Savastru, V Savu, MI Rusu, M Tautan, A Stanciu
Journal: Journal of Optoelectronics and Advanced Materials
Year: 2024

Sampling the travel distance of a vehicle through an unconventional method for data acquisition

Authors: MI Rusu, V Savu, D Savastru, CH Gandescu, A Stan, DM Cotorobai
Journal: Journal of Optoelectronics and Advanced Materials
Year: 2023

Grating Optic Fiber Sensors Detection of Smart Polymer Composite Delamination

Authors: D Savastru, D Savastru, MI Rusu, M Tautan, V Savu, II Lancranjan
Journal: Optics, Photonics and Lasers
Year: 2023

Ellipsometric characterization of tungsten oxide thin films, before and after He plasma exposure

Authors: MI Rusu, Y Addab, C Martin, C Pardanaud, V Savu, II Lancranjan, …
Journal: Optoelectronics and Advanced Materials-Rapid Communications
Year: 2023

Xiong Zhang | Computational Particle Physics | Best Researcher Award

Published on 21/02/202521/02/2025 by High Energy Physics

Mr. Xiong Zhang | Computational Particle Physics | Best Researcher Award

Yan’an University | China

Xiong Zhang is a Lab Technician at the College of Physics and Electronic Information, Yan’an University. Born in Suide, Shaanxi, in September 1990, he has emerged as an innovative researcher in the field of electronic communications . Zhang is currently a PhD Candidate with a strong academic background and a focus on photocatalysis, MEMS systems, and smart technologies. His work spans research, teaching, and practical innovations, making him a significant contributor to both academia and industry.

Profile