Yueling Yang | High energy physics | Best Researcher Award

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

Professor at Henan Normal University | China

Yueling Yang is a Professor of Physics at Henan Normal University, specializing in theoretical particle physics. With extensive expertise in weak decays, quantum chromodynamics (QCD), and the phenomenology of B mesons, she has established herself as a prominent researcher in the field. Over the years, she has progressed from an Assistant Professor to a Professor, teaching and conducting research at one of China’s leading institutions in the realm of theoretical physics.

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📚Early Academic Pursuits

Yueling Yang’s academic journey began at Yanbei Normal University, where she obtained her Bachelor of Science in Physics (2000). She pursued her Master of Science in Theoretical Physics and later earned her Ph.D. in Theoretical Physics from Henan Normal University in 2014. Her graduate education laid a solid foundation for her future research endeavors, shaping her interests in particle physics and QCD phenomena.

👩‍🏫Professional Endeavors

Yang’s professional career spans over two decades, with extensive experience at Henan Normal University since 2003. After serving as an Assistant Professor at Yuncheng University, she returned to Henan Normal University in 2006. Over time, she was promoted to Lecturer, then Associate Professor, and finally, Professor. She currently holds the position of Professor of Physics at the Institute of Particle and Nuclear Physics, making her a key figure in academic leadership and research excellence.

🔬Contributions and Research Focus

Yueling Yang’s research primarily focuses on theoretical particle physics, specifically the study of weak decays of B mesons and heavy-flavored mesons. She has contributed to the understanding of nonfactorizable corrections in weak decays and the application of QCD factorization methods to nonleptonic decays. Her contributions also extend to the phenomenology of particle decays, an area central to understanding the standard model and searching for new physics beyond it.

🌍Impact and Influence

Yueling Yang’s work has had a substantial impact on the field of theoretical physics. Her research not only advances fundamental theoretical concepts but also bridges the gap between theoretical predictions and experimental possibilities, helping lay the groundwork for potential future experimental investigations in particle physics. Her publications, including 61 refereed journal articles, demonstrate her ongoing contribution to the academic community, and her work is often cited by leading researchers in the field.

📚 Academic Cites

Yueling Yang’s research has been widely cited in academic journals such as Eur. Phys. J. C, Phys. Rev. D, and Chin. Phys. C, demonstrating the scholarly reach and relevance of his contributions. His recent work on QED corrections and factorization approaches continues to gain traction among peers in the theoretical physics community.

🧪 Research Skills

Prof. Yang excels in theoretical modeling, perturbative QCD, and computational analysis for particle physics processes. His methodical approach to applying QCD factorization and examining nonperturbative effects enables nuanced predictions of weak decay channels. These skills have been critical in acquiring competitive funding from agencies like the National Natural Science Foundation of China.

📖Teaching Experience

As a renowned educator, Yueling Yang has played a crucial role in shaping the academic development of many students. She has received multiple teaching awards, including the “Top 10 Distinguished Teachers” and the “Outstanding Teachers” awards from Henan Normal University. Her commitment to excellence in teaching is also reflected in her work as an Excellent Master’s Thesis Supervisor, an honor she will continue to hold into 2024.

🏅 Awards and Honors

Prof. Yang has received 6 major honorary titles, including:

  • 🏆 Excellent Master’s Thesis Supervisor of Henan Province (2024)

  • 🥈 Second Class Prize of the Henan Natural Science Award (2023)

  • 🌟 Outstanding Teacher and Example Lesson recognitions from Henan Normal University (2018, 2021)

  • 🎓 Top 10 Distinguished Teachers (2015)

These accolades reflect his all-around excellence in both education and research.

🧬 Legacy and Future Contributions

Looking ahead, Prof. Yueling Yang continues to expand his research on new physics effects in heavy meson decays and aims to bridge theory with upcoming experimental data from international particle collider facilities. His legacy is being shaped not only through his scientific contributions but also by the next generation of physicists he mentors. With new research grants and international collaborations underway, Prof. Yang is poised to make even deeper contributions to the understanding of fundamental particles and forces.

Publications Top Notes

The QED nonfactorizable correction to the semileptonic charmed three-body B decays

  • Authors: Yueling Yang, Liting Wang, Jiazhi Li, Qin Chang, Junfeng Sun
    Journal: European Physical Journal C
    Year: 2024

CEPC Technical Design Report: Accelerator

  • Authors: Waleed Abdallah, Tiago Carlos Adorno de Freitas, Konstantin G. Afanaciev, Tianlu Chen, Wei Chen
    Journal: Radiation Detection Technology and Methods
    Year: 2024

STCF conceptual design report (Volume 1): Physics & detector

  • Authors: M. N. Achasov, X. C. Ai, L. P. An, Baolin Hou, T. J. Hou
    Journal: Frontiers of Physics
    Year: 2024

Possibility of experimental study on nonleptonic weak decays

  • Authors: Yueling Yang, Liting Wang, Jinshu Huang, Qin Chang, Junfeng Sun
    Journal: Chinese Physics C
    Year: 2023

Feasibility of searching for the Cabibbo-favored D∗ → K ¯ π+, K ¯ ∗π+, K ¯ ρ+ decays

  • Authors: Yueling Yang, Kang Li, Zhenglin Li, Qin Chang, Junfeng Sun
    Journal: Physical Review D
    Year: 2022

 

Shewa Getachew | High energy physics | Editorial Board Member

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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.

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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

 

 

Song He | High energy physics | Best Researcher Award

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Mr. Song He | High energy physics | Best Researcher Award

Ph.D. student at Huazhong University of Science and Technology | China

Song He is currently a Ph.D. student at Huazhong University of Science and Technology (HUST), specializing in novel radiation detectors and imaging techniques. He has contributed extensively to high-impact journals in the fields of material science and electronics, with innovative research in scintillator development. His work has led to groundbreaking discoveries in enhancing X-ray imaging and fast neutron imaging resolution.

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Early Academic Pursuits 🎓

Song He’s academic journey began with a Bachelor of Engineering in Materials Science and Engineering from China University of Mining and Technology (2015-2019). He continued with a Master of Engineering in Materials and Physics from the same university (2019-2022). Currently, he is pursuing a Ph.D. in Electronic Science and Technology at HUST since 2022. His early education laid a strong foundation for his innovative approach to radiation detection and imaging technology.

Professional Endeavors 💼

Throughout his career, Song He has primarily focused on developing novel radiation detectors and imaging technologies. His work emphasizes improving the performance of scintillators for better X-ray and neutron imaging. He has filed several patents related to his inventions, demonstrating his commitment to transformative research in radiation detection. Despite limited professional collaborations at this stage, his independent contributions have been highly impactful in the scientific community.

Contributions and Research Focus 🔬

Song He’s research primarily revolves around novel radiation detectors and scintillator technologies. In particular, he has developed a new class of scintillators that overcome traditional limitations by using hot exciton molecules (TPE-4Br) and conjugated polymers (PVT) to enhance performance. His contributions have led to breakthroughs in X-ray imaging and fast neutron imaging resolution, significantly advancing the field of radiation detection.

Impact and Influence 🌍

Song He’s work is paving the way for high-resolution imaging technologies that can have a significant impact in fields such as medical diagnostics, nuclear physics, and security imaging. His innovative approaches are influencing both academic research and practical applications. His recent paper in Advanced Functional Materials (DOI: 10.1002/adfm.202503688) received recognition for offering a new solution to long-standing challenges in the radiation detection field.

Academic Citations 📑

Although Song He’s citation index is not formally listed, his work is published in top-tier journals like Advanced Functional Materials, Inorganic Chemistry, Advanced Materials, and The Journal of Physical Chemistry C. The high impact of his research is evident in the citations of his publications, showing their relevance and influence in the scientific community.

Research Skills 🧠

Song He demonstrates exceptional skills in materials science, physics, and electronic technology. His ability to synthesize innovative materials and develop advanced radiation detectors showcases his technical expertise. Additionally, he has practical skills in scintillator synthesis, polymer chemistry, and in-situ polymerization. His experimental design and analytical techniques allow for high-precision imaging, which is crucial for the future of radiation detection.

Awards and Honors 🏅

Currently, Song He has not reported receiving formal awards or honors. However, the significance of his innovative research and published work in high-impact journals positions him as a rising star in his field. His patent applications and scientific contributions hint at a promising future where such recognitions are likely.

Legacy and Future Contributions 🔮

With his cutting-edge research in radiation detectors and imaging technologies, Song He is poised to make long-lasting contributions to both academic and industry sectors. His future work holds the potential for further advancements in medical imaging, nuclear research, and security applications, with his innovative materials providing solutions to longstanding challenges. As his career progresses, Song He is expected to become a significant figure in radiation detection technologies, with lasting impact on both science and society.

Publications Top Notes

High‐Performing Direct X‐Ray Detection Made of One‐Dimensional Perovskite‐Like (TMHD)SbBr₅ Single Crystal With Anisotropic Response

  • Authors: Guangya Zheng, Haodi Wu, Song He, Hanchen Li, Zhiwu Dong, Tong Jin, Jincong Pang, Rachid Masrour, Zhiping Zheng, Guangda Niu et al.
    Journal: Small
    Year: 2025

Hot Exciton‐Based Plastic Scintillator Engineered for Efficient Fast Neutron Detection and Imaging

  • Authors: Song He, Pengying Wan, Hanchen Li, Zizhen Bao, Xinjie Sui, Guangya Zheng, Hang Yin, Jincong Pang, Tong Jin, Shunsheng Yuan et al.
    Journal: Advanced Functional Materials
    Year: 2025

Close‐to‐Equilibrium Crystallization for Large‐Scale and High‐Quality Perovskite Single Crystals

  • Authors: Hang Yin, Mingquan Liao, Yuanpeng Shi, Zhiqiang Liu, Hanchen Li, Song He, Zhiping Zheng, Ling Xu, Jiang Tang, Guangda Niu
    Journal: Advanced Materials
    Year: 2025

BiSBr, an Anisotropic One-Dimensional Chalcohalide Used for Radiographic Detection

  • Authors: Yunmeng Liang, Pang Jincong, Zhang Qingli, He Song, Xu Ling, Luo Wei, Zhiping Zheng, Guangda Niu
    Journal: The Journal of Physical Chemistry C
    Year: 2024

Remarkable Improvement of Thermoelectric Performance in Ga and Te Cointroduced Cu₃SnS₄

  • Authors: Song He, 勇 罗, Liangliang Xu, Yue Wang, Zhongkang Han, Xie Li, Jiaolin Cui
    Journal: Inorganic Chemistry
    Year: 2021

 

 

Sanae ZRIOUEL | Computational Particle Physics | Women Researcher Award

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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.

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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

 

 

Ayan Kumar Makar | Nuclear Physics | Best Researcher Award

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Mr. Ayan Kumar Makar | Nuclear Physics | Best Researcher Award

Plasma Science Society of India | India

Ayan Kumar Makar is a dedicated researcher and life member of the Plasma Science Society of India (LM-1979). He specializes in nuclear fusion, having worked extensively in various nuclear facilitation centers in India. With a strong academic background and a passion for fusion research, he is currently pursuing his PhD at the Centre of Plasma Physics – Institute for Plasma Research. Alongside his research, he holds an MBA from the Arun Jaitley National Institute of Financial Management and an M.Sc. in Applied Physics from the Central University of Jharkhand.

👨‍🎓Profile

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Early Academic Pursuits 🎓

Ayan Kumar Makar began his academic journey with a focus on applied physics at the Central University of Jharkhand, where he earned his M.Sc.. His foundation in physics was solidified during his time at Vivekananda Mission High School (Class XII) and Budge Budge St. Paul’s Day School (Class X). His early academic experiences laid the groundwork for his deep interest in nuclear fusion and plasma physics, driving him to pursue advanced studies and research.

Professional Endeavors 🏢

Currently, Makar serves as a Research Fellow at the Centre of Plasma Physics under the Institute for Plasma Research. He has contributed significantly to the Pulsed Plasma Accelerator Laboratory, engaging in cutting-edge research. His professional journey is distinguished by his association with various nuclear research facilities in India, showcasing his expertise in nuclear fusion and plasma dynamics. His role at the Institute for Plasma Research has positioned him at the forefront of fusion research in India.

Contributions and Research Focus 🔬

Makar’s research spans multiple critical areas, including:

  • Heavy-ion collisions and their effects on nuclear reactions.
  • The study of plasma astrophysics, focusing on the stability of triple star systems.
  • Fusion plasma stability and the occurrence of dust in Tokamak reactors.
  • The dynamics of energetic particles in magnetically confined fusion plasmas.
  • Plasma centrifugation methods for nuclear waste separation.

These contributions, reflected in his published works in leading journals, have made a significant impact in nuclear physics and fusion technology.

Impact and Influence 🌍

Makar’s research has had substantial influence within the plasma science community, especially in the areas of fusion plasma stability and nuclear waste management. His work on the audit of dust in Tokamaks and the energetic particles in fusion plasmas has provided new insights that could shape future fusion reactors. Moreover, his exploration of the plasma centrifugation method for nuclear waste separation offers a potential breakthrough in solving one of the major challenges in nuclear energy.

Research Skills 🧪

Makar’s research skills include advanced techniques in plasma diagnostics, nuclear fusion technologies, and energetic particle analysis. His ability to design and conduct experiments in magnetically confined plasma systems and to analyze heavy-ion collision data makes him a skilled experimental physicist. He has also demonstrated proficiency in computational modeling for fusion plasma behavior and has expertise in developing plasma separation techniques for nuclear waste management.

Legacy and Future Contributions 🌟

Ayan Kumar Makar’s legacy will likely be defined by his contributions to fusion plasma stability, nuclear waste management, and his continued research in plasma astrophysics. His groundbreaking work in the field of fusion reactors will likely influence future fusion energy generation methods. Additionally, his exploration of plasma techniques for waste management has the potential to revolutionize the way we approach nuclear waste in the coming decades.

Publications Top Notes

  • An Overview of Heavy-Ion Collisions

    • Author: Ayan Kumar Makar
    • Journal: Journal of Nuclear Engineering & Technology
    • Year: 2019

  • Basis of Plasma Astrophysics in Stability of the Triple Star System

    • Author: Ayan Kumar Makar
    • Journal: Results in Physics
    • Year: 2020

  • An Audit of Occurrence of Dust in Tokamak and Stability of Fusion Plasma

    • Author: Ayan Kumar Makar
    • Journal: The Japan Society of Plasma Science and Nuclear Fusion Research
    • Year: 2020

  • An Investigation of Energetic Particles in the Magnetically Confined Fusion Plasma

    • Author: Ayan Kumar Makar
    • Journal: Turkish Journal of Nuclear Sciences (The Turkish Energy, Nuclear, and Mineral Research Agency)
    • Year: 2024

  • Plasma Centrifugation Method for Separation of the Nuclear Waste

    • Author: Ayan Kumar Makar
    • Journal: Radiation Effects and Defects in Solids
    • Year: 2024

 

 

Seyyed Abdollahi | High energy physics | Member

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Mr. Seyyed Abdollahi | High energy physics | Member

Scholarship at Tabriz University, Iran

I was B.Sc. Student in Mechanical Engineering at Tabriz University and I was among the top 5%, I also received a full scholarship from Tabriz University for the master’s degree, and now I am a master’s student in energy conversion trend at Tabriz University. I was also a Teacher assistant in the Strength of Materials and Design of Machine Elements courses, and I have been working with Dr. Seyyed Faramarz Ranjbar and Dr. Farid Vakili Tahami for 1 year. I am also interested in researching the topics of Power Plants, Thermodynamics, Fluid mechanics, Air conditioning, Energy and Solar energy. Which led to the writing three books I am also interested in working and researching on these topics in the future: 1-Renewable Energy 2-Exergy Analysis 3-Piezoelectric Micropumps 4-Photovoltaics(PV) 5-Nanofluids 6-Energy Analysis 7-Fuel Cells 8-Analysis of Wind Turbin

Professional Profiles:

Education

Master of Mechanical Engineering Branch: Energy Conversion Institute/University: Tabriz University Tabriz , East Azerbaijan, Iran 2022 – Present Bachelor of Mechanical Engineering Institute/University: Tabriz University Tabriz , East Azerbaijan, Iran 2018 – 2022 GPA : 17.90(out of 20)

Work Experience

Internship Tabeiz Thermal Power Station Tabriz , East Azerbaijan, Iran July 2021 – August 2021 Tasks and Achievements Teacher Assistant in the Design of Machine Elements course Tabriz University Tabriz , East Azerbaijan, Iran September 2021 – Present Tasks and Achievements Teacher Assistant in the Power Plants course Tabriz University Tabriz , East Azerbaijan, Iran September 2022 – January 2023 Email: s.a_abdollahi@yahoo.com Mobile: (+98)9380596289 Website: www.linkedin.com/in/seyyed-amirrezaabdollahi-powerplants-renewableenergy Address: Tabriz , East Azerbaijan, Iran DoB: 1998-09-24 Marital Status: Single Military Service: Educational Exemption Seyyed Amirreza Abdollahi Mechanical Engineering Profile Summary Education Work Experience I went to the Tabriz Thermal Power Plant for a training course. There i observed the things that i studied theoretically in the Thermodynamics course. I visited the important parts ofthe power plant such as ControlRoom, Steam Turbines, Boilers, Cooling Towers and the Chemical Department . Results of my research led me to write a book called “Tabriz Thermal Power Plant” As a teacher’s assistant, I solved additional exercises forthe students and supervised their

Research Focus:

The research focus of SA Abdollahi spans across various fields, primarily centered around computational fluid dynamics (CFD), heat transfer, nanofluids, porous media techniques, and numerical analysis. Their work encompasses simulations of heat transfer and fluid flow in microchannel heat sinks, investigation of blood hemodynamics in aneurysms, optimization of chemical processes, and modeling the separation capabilities of membranes. Additionally, they explore topics such as magnetohydrodynamics, biomaterial phase equilibria, and the application of machine learning techniques in estimating biomass properties. Abdollahi’s research demonstrates a broad interest in advancing understanding and optimization across diverse engineering and scientific domains.

Publications

  1. Computer simulation of Cu: AlOOH/water in a microchannel heat sink using a porous media technique and solved by numerical analysis AGM and FEM, cited by: 37, Publication: 2023.
  2. Investigating heat transfer and fluid flow betwixt parallel surfaces under the influence of hybrid nanofluid suction and injection with numerical analytical technique, cited by: 29, Publication: 2023.
  3. Computational study of blood hemodynamic in ICA aneurysm with coiling embolism, cited by: 18, Publication: 2023.
  4. Numerical study of heat transfer of wavy channel supercritical CO2 PCHE with various channel geometries, cited by: 11, Publication: 2023.
  5. Influence of extruded injector nozzle on fuel mixing and mass diffusion of multi fuel jets in the supersonic cross flow: computational study, cited by: 9, Publication: 2023.
  6. Removal of ciprofloxacin and cephalexin antibiotics in water environment by magnetic graphene oxide nanocomposites; optimization using response surface methodology, cited by: 7, Publication: 2023.
  7. Optimizing the amount of concentration and temperature of substances undergoing chemical reaction using response surface methodology, cited by: 7, Publication: 2023
  8. Phase Equilibria Simulation of Biomaterial-Hydrogen Binary Systems Using a Simple Empirical Correlationcited by: 6, Publication: 2023
  9. Modeling the CO2 separation capability of poly(4-methyl-1-pentane) membrane modified with different nanoparticles by artificial neural networks,  cited by: 5, Publication: 2023
  10. Applying feature selection and machine learning techniques to estimate the biomass higher heating valuecited by: 3, Publication: 2023
.