Tamal Mukhopadhyay | Particle physics and cosmology | Best Researcher Award

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Mr. Tamal Mukhopadhyay | Particle physics and cosmology | Best Researcher Award

Sister Nivedita University | India

Tamal Mukhopadhyay is a highly dedicated physicist, specializing in cosmology with a particular focus on the early universe, dark energy, and the accelerated expansion of the universe. With an impressive academic background, including a Master’s degree from Sister Nivedita University, Tamal’s research has significantly contributed to our understanding of the cosmic evolution and gravitational wave astronomy. Currently, he is pursuing a research fellowship at IIEST, Shibpur, where he focuses on the integration of modified gravity theories and dark energy models.

👨‍🎓Profile

Google scholar

Orcid

Early Academic Pursuits 🎓

Tamal’s academic journey began at St. Paul’s Cathedral Mission College where he completed his B.Sc. in Physics (Hons.). His foundation in physics was solidified with courses in classical mechanics, quantum mechanics, and special relativity. His curiosity about the fundamental forces of nature propelled him to pursue an M.Sc. in Physics at Sister Nivedita University, where he excelled with a CGPA of 8.96. During his Master’s program, he conducted pivotal research under the guidance of Prof. (Dr.) Debashis Gangopadhyay, culminating in his thesis on the variation of dark energy scalar fields using a k-essence scalar field model.

Professional Endeavors 💼

Tamal has worked as a Subject Matter Expert in Physics (Freelancer) at Chegg from 2021 to 2024, where he honed his communication skills by helping students understand complex physics concepts. This role allowed him to stay updated with the latest developments in the field and continuously refine his analytical skills. Currently, he is a Visiting Research Fellow at IIEST, Shibpur, where he is engaged in cutting-edge research on reconstructed gravity models and dark energy theories. His work bridges the theoretical understanding of cosmic acceleration with observable phenomena like gravitational waves.

Contributions and Research Focus 🔬

Tamal’s research is rooted in the study of the early universe, with a focus on understanding the role of dark energy in the expansion of the universe. His thesis explored the evolution dynamics of an inhomogeneous k-essence scalar field, which contributes to the growing body of knowledge on the origin of dark energy and cosmic acceleration. Tamal has also worked extensively on modified gravity models, including the f(P) and f(Q) models, and Einstein-Aether theories. His current work involves the thermodynamic stability of Modified Chaplygin Gas models and the exploration of gravitational wave cosmology, aiming to uncover early universe signatures.

Technical  Skills 🛠️

Tamal’s research skills are comprehensive and multidisciplinary, covering advanced computational techniques, data analysis, and scientific computing. He is proficient in programming languages like Python, MATLAB, and FORTRAN, and is adept at using tools like NumPy, pandas, Matplotlib, and SciLab. His familiarity with cosmological simulation packages like CAMB and CLASS allows him to perform complex modeling, while his use of LATEX for writing scientific papers ensures high-quality academic output.

Teaching Experience 🍎

While Tamal’s formal teaching experience is limited to his role as a freelancer at Chegg, his involvement in presentations at various academic events demonstrates his ability to communicate complex topics to a wider audience. He has delivered talks on subjects like gravitational wave astronomy and quantum entanglement, showcasing his capacity to engage students and peers in fascinating areas of physics.

Awards and Honors 🏆

Tamal’s academic and research pursuits have earned him several accolades, including:

  • Second Prize in Oral Presentation at the National Science Day celebration at Sister Nivedita University (2023).
  • Highest Marks in Chemistry during his undergraduate studies at St. Paul’s Cathedral Mission College (2022).
  • First Position in Oral Presentation Competition at the Department of Physics, St. Paul’s Cathedral Mission College (2017).
  • Award for Highest Marks in Computer Science from Howrah Vivekananda Institution (2016).

Legacy and Future Contributions 🚀

Tamal’s contributions are set to leave a lasting legacy in the field of cosmology. His research, particularly in dark energy and modified gravity models, promises to advance our understanding of cosmic acceleration and gravitational wave cosmology. As he continues his research and builds on his expertise, he is poised to make significant strides in uncovering early universe signatures and developing more refined cosmological models. His work will likely inspire future generations of researchers and continue to shape the future of cosmology and theoretical physics.

Publications Top Notes

Thermodynamics of modified Chaplygin-Jacobi gas and modified Chaplygin-Abel gas: Stability analysis and observational constraints

  • Authors: Banadipa Chakraborty, Tamal Mukhopadhyay, Debojyoti Mondal, Ujjal Debnath
    Journal: Nuclear Physics B
    Year: 2025

Reconstructions of f(𝒫) and f(𝒬) gravity models from (m,n)-type Barrow Holographic Dark Energy: Analysis and Observational Constraints

  • Authors: Tamal Mukhopadhyay, Banadipa Chakraborty, Anamika Kotal, Ujjal Debnath
    Journal: International Journal of Geometric Methods in Modern Physics
    Year: 2025

On the Field Theoretical Description of an Alternative Model to Generalized Chaplygin Gas and its Thermodynamic Behaviour

  • Authors: Tamal Mukhopadhyay, Banadipa Chakraborty, Ujjal Debnath, Anirudh Pradhan
    Journal: arXiv e-prints
    Year: 2024

Reconstructions of Einstein-Aether Gravity from Barrow Agegraphic and New Barrow Agegraphic Dark Energy models: Examinations and Observational Limits

  • Authors: Banadipa Chakraborty, Tamal Mukhopadhyay, Anamika Kotal, Ujjal Debnath
    Journal: arXiv e-prints
    Year: 2024

To Study The Variation of Dark Energy Scalar Fields In The Homogeneous Universe Using k-Essence Scalar Field Model

  • Authors: Tamal Mukhopadhyay
    Journal: Dissertation or Thesis
    Year: 2023

 

 

Peifang Li | Computational Particle Physics | Best Researcher Award

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Prof. Peifang Li | Computational Particle Physics | Best Researcher Award

Inner Mongolia Minzu University | China

Peifang Li is a prominent Professor at Inner Mongolia Minzu University, where she serves as the Dean of the College of Physics and Electronic Information. As a member of the Extreme Conditions Physics Research Team, her contributions to the field of Physics have made her a key figure in both research and education. Li was born in Tongliao City, Inner Mongolia, and completed her doctorate in Condensed Matter Physics from Jilin University in 2011. She has been affiliated with Inner Mongolia University for Nationalities since 2006, gaining recognition as a first-level discipline leader in Physics.

👨‍🎓 Profile

Scopus

Early Academic Pursuits 📚

Prof. Peifang Li’s academic journey began with her interest in Physics, particularly in the study of materials under extreme conditions. After completing her undergraduate education, she pursued advanced studies at Jilin University, where she earned her Ph.D. in Condensed Matter Physics. This period of intense academic engagement allowed her to explore the theoretical and experimental dimensions of material properties under high pressure, which would later become her primary area of research focus.

Professional Endeavors 💼

In her professional career, Peifang Li has been instrumental in the development of the College of Physics and Electronic Information at Inner Mongolia Minzu University. As Dean, she has managed academic programs and contributed to the strategic direction of the department. Beyond administrative roles, Li is also deeply involved in high-level research, particularly in the fields of high-pressure physics and material science. She leads multiple research projects funded by national and regional bodies, such as the National Natural Science Foundation of China and local autonomous region projects.

Contributions and Research Focus 🔬

Prof. Li’s research focus revolves around the structure and properties of materials under extreme conditions, where she has published more than 60 papers, including 16 SCI-indexed papers. Her work explores the crystal structure, electronic properties, and phase transitions of materials under high pressure. Additionally, she has completed a monograph and secured two national utility model patents. Her contribution to the field has significantly enhanced the understanding of material behaviors in extreme environments, with profound implications for both theoretical research and practical applications.

Impact and Influence 🌍

Prof. Peifang Li’s work has had a substantial impact on the field of material science. Her research has not only advanced the scientific community’s understanding of material behavior under high-pressure conditions but also contributed to innovations in practical applications. With an H-index of 68.1 and over 700,000 yuan in funding, her academic influence is vast. Through her leadership in the Extreme Conditions Physics Research Team, Li has made significant strides in the study of materials science, helping shape the future of high-pressure research.

Academic Cites 📊

Prof. Li has an impressive citation index of 59 across major platforms like Scopus, Web of Science, and PubMed, showcasing the global recognition of her scholarly contributions. Her research has gained traction internationally, with many scholars referencing her work in the field of high-pressure physics and condensed matter physics.

Research Skills 🧠

Prof. Peifang Li is a highly skilled researcher in areas such as density functional theory, high-pressure experiments, and material characterization. Her research involves both theoretical simulations and experimental validations, making her a versatile scholar. Her ability to bridge the gap between theory and practice is one of her greatest strengths, and she continually employs innovative methods to explore new material phases and properties under extreme conditions.

Teaching Experience 🏫

In addition to her research endeavors, Peifang Li has played a pivotal role in shaping the next generation of physicists. As a master’s supervisor, she has mentored 3 young teachers and 6 postgraduate students. Her teaching philosophy emphasizes the importance of both fundamental knowledge and hands-on research experience, ensuring that her students are well-prepared for careers in academia, industry, and research.

Awards and Honors 🏅

Prof. Peifang Li’s contributions have been recognized through numerous awards and honors. Notably, she was selected for the New Century 321 Talent Project of Inner Mongolia in both 2019 and 2021. She has also received the prestigious Horqin Scholar title twice (in 2014 and 2019) and led a team to win 1 national first-class course. Her achievements are a testament to her dedication to both academic excellence and research leadership.

Legacy and Future Contributions 🌟

Prof. Peifang Li’s legacy lies in her profound impact on the study of materials under extreme conditions, which has broad implications for technology and innovation. Looking forward, she plans to continue advancing research in high-pressure physics, with a particular focus on new material discoveries. Li also aims to strengthen international collaborations and extend her research’s industrial applications, ensuring that her work contributes not only to academia but also to global technological advancements.

  Publications Top Notes

Modulated electronic properties of borophene nanoribbons using copper and oxygen atoms

Authors: Wang, W., Ma, J., Wang, Y., Zhou, K., Li, P.
Journal: Chemical Physics
Year: 2025

The crystal structure and characteristics of chlorine trifluoride under high-pressure

Authors: Xing, S., Wang, X., Wang, T., Sun, Y., Li, P.
Journal: Chemical Physics Letters
Year: 2024

The impact of halogens on the structural, electronic, and optical properties of vacancy-ordered double perovskites Rb2SeX6 (X=I, Br, Cl)

Authors: Zhang, H., Ou, T., Jiang, W., Li, P., Ma, X.
Journal: Journal of Solid State Chemistry
Year: 2024

Bose-Einstein distribution temperature features of quasiparticles around magnetopolaron in Gaussian quantum wells of alkali halogen ions

Authors: Zhang, X., Sarengaowa, Han, S., Li, P.-F., Sun, Y.
Journal: Chinese Physics B
Year: 2024

Crystal structure and electronic properties of BrF under high-pressure

Authors: Lang, H., Shao, X., Wang, X., Sun, Y., Li, P.
Journal: Chinese Journal of Physics
Year: 2024

 

 

Jun Zhang | Particle Experiments | Best Researcher Award

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Dr. Jun Zhang | Particle Experiments | Best Researcher Award

Assistant Professor at Hefei University of Technology, China

Dr. Zhang Jun is an Assistant Professor in the School of Mechanical Engineering at Hefei University of Technology. His research focuses on heat and mass transfer in cryogenic systems, with significant contributions to oscillating heat pipes and superconducting technologies. Dr. Zhang obtained his Ph.D. in Engineering in Power Engineering and Thermophysics from Xi’an Jiaotong University in 2016. He has authored and co-authored numerous publications in prestigious journals such as Cryogenics, Applied Physics Letters, and Physics of Fluids. His research also explores graphene membranes and memristors, contributing to innovative solutions in nanotechnology and vacuum science. Dr. Zhang is an active member of the academic community, continuously advancing the understanding of complex thermal-fluid systems, especially in cryogenic and nanomaterial applications.

Profile🎓

🧑‍🎓 Early Academic Pursuits

Dr. Zhang Jun embarked on his academic journey with a keen interest in thermodynamics and heat transfer systems. He completed his Ph.D. in Engineering in Power Engineering and Thermophysics from Xi’an Jiaotong University in September 2016. His research during this period was foundational in understanding heat and mass transfer processes in cryogenic systems, particularly in superfluid helium environments. His doctoral studies laid the groundwork for his future career in energy systems, nano-engineering, and thermal management technologies. Dr. Zhang’s early work also demonstrated a strong aptitude for interdisciplinary research, integrating principles of material science with thermodynamics.

👨‍🏫 Professional Endeavors

Since December 2016, Dr. Zhang Jun has been serving as an Assistant Professor in the School of Mechanical Engineering at Hefei University of Technology. In this role, he has contributed significantly to both research and education, mentoring students and collaborating with fellow researchers on a range of innovative projects. His professional endeavors are marked by his expertise in cryogenic systems, nano-materials, and advanced heat transfer technologies, with a special focus on helium-based oscillating heat pipes and superconducting systems. His research has practical implications in diverse fields such as space exploration, nano-technology, and energy systems.

🧑‍🔬 Contributions and Research Focus

Dr. Zhang Jun’s research is centered around heat and mass transfer in cryogenic systems, with particular emphasis on superfluid helium and oscillating heat pipes. His work has also extended to the study of graphene membranes and vacuum systems, pushing the boundaries of nano-material science. Notable contributions include groundbreaking studies on the thermal performance of superfluid helium systems and gas diffusion processes through porous graphene membranes. His pioneering research on memristors and nano-composite materials has made significant strides in the fields of nanoelectronics and energy-efficient technologies. Through his work, Dr. Zhang has bridged the gap between theoretical research and practical applications, advancing both scientific knowledge and technological innovation.

🌍 Impact and Influence

Dr. Zhang Jun has made a notable impact on the fields of cryogenics, nanotechnology, and thermal-fluid dynamics. His published articles in high-impact journals such as Cryogenics, Physics of Fluids, and Applied Physics Letters are regularly cited, influencing researchers and industry leaders alike. His work on cryogenic heat transfer has advanced the understanding of superconducting systems and energy-efficient technologies, making significant contributions to industries like energy storage, space technology, and advanced manufacturing. Dr. Zhang’s influence extends beyond academia, as his research has been adopted by industry professionals working on thermal systems and nano-engineered materials.

📚 Academic Cites

Dr. Zhang Jun’s work has been extensively cited in the scientific community, further solidifying his reputation as a thought leader in thermal engineering and nano-materials. Key articles, such as his study on helium-based oscillating heat pipes and superfluid helium cryogenic systems, have garnered significant attention in journals like Cryogenics and Journal of Vacuum Science and Technology. His research on graphene membranes and gas diffusion processes has also led to influential publications in journals such as Physics of Fluids and Vacuum. Dr. Zhang’s ability to address complex thermal-fluid problems and offer innovative solutions has contributed to his growing citation index, reflecting his influence on the field.

🛠️ Technical Skills

Dr. Zhang Jun possesses a broad set of technical skills that are vital to his interdisciplinary research. His expertise spans areas such as thermal-fluid dynamics, nano-material engineering, cryogenics, and vacuum technology. He is proficient in advanced thermal analysis, simulation tools, and material characterization techniques. His work on nano-composite materials, graphene membranes, and heat exchanger systems is supported by his strong background in computational modeling, experimental research, and system optimization. Additionally, his technical proficiency extends to nanoelectronics, memristor technology, and energy-efficient systems, allowing him to explore new frontiers in nano-manufacturing and superconducting technologies.

👨‍🏫 Teaching Experience

As an Assistant Professor at Hefei University of Technology, Dr. Zhang Jun has demonstrated a passion for teaching and mentoring the next generation of engineers. His courses cover a range of topics in mechanical engineering, including cryogenic systems, thermal engineering, and nano-materials. Dr. Zhang’s teaching style blends theoretical rigor with practical applications, encouraging students to explore the latest technologies in advanced thermal systems and material science. He also guides students through research projects in areas like nanoelectronics, cryogenic heat transfer, and superfluid helium systems, preparing them for careers in both academia and industry. His dedication to research-based education has made him a respected figure in his department.

🌱 Legacy and Future Contributions

Dr. Zhang Jun’s legacy in thermal engineering and cryogenics is already firmly established through his influential research and academic contributions. Looking forward, he is poised to continue making transformative contributions in the fields of cryogenic system optimization, nano-engineered materials, and advanced heat transfer technologies. Dr. Zhang’s future research directions include exploring the integration of nano-materials in sustainable energy systems and advancing the capabilities of superconducting systems for applications in quantum computing and space exploration. As an active researcher and educator, Dr. Zhang is dedicated to expanding the boundaries of thermophysics and contributing to the development of next-generation technologies that address global energy challenges and sustainable development goals.

Top Noted Publications📖

Investigation on the surface diffusion process of gas molecules in porous graphene membranes
  • Authors: Jun Zhang, Chenhui Liu, Rui Huang, Xudi Wang, Qing Cao
    Journal: Physics of Fluids
    Year: 2024

Application of Helium-Based oscillating heat pipes in cryogenic superconducting system

  • Authors: Jun Zhang, Rui Huang, Changcheng Ma, Yi Huo, Xudi Wang, Qing Cao
    Journal: Cryogenics
    Year: 2024

Resistive switching behavior of the memristor based on WS2 nanosheets and polyvinylpyrrolidone nanocomposites

  • Authors: Qing Cao, Limiao Xiong, Xudong Yuan, Pengcheng Li, Jun Wu, Hailin Bi, Jun Zhang
    Journal: Applied Physics Letters
    Year: 2022

New leak element based on transfer-free single-layer graphene membrane

  • Authors: Xudi Wang, Hanwen Lin, Hailin Bi, Qing Cao, Donghui Meng, Lichen Sun, Guohua Ren, Jiadong Qi, Jun Zhang
    Journal: Vacuum
    Year: 2022

 

 

Ali Homid | Quantum Field Theory | Best Researcher Award

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Assoc. Prof. Dr. Ali Homid | Quantum Field Theory | Best Researcher Award

Faculty of Science at Al-Azhar University, Egypt

Dr. Ali Hassan Ali Homid is an Assistant Professor of Mathematics and Theoretical Physics at the Faculty of Science, Al-Azhar University in Assiut, Egypt. Born on February 1, 1986, he specializes in Quantum Mechanics and Quantum Information Theory. Dr. Homid earned his PhD in Applied Mathematics in 2020, focusing on quantum algorithms and their applications in artificial quantum systems. Over the years, he has built an impressive research profile, collaborating with leading institutions such as Zewail City of Science and Technology and the Academy of Scientific Research and Technology. As a researcher and educator, Dr. Homid combines cutting-edge theoretical research with teaching, focusing on the physical realization of quantum gates and systems for quantum computation.

Profile🎓

Early Academic Pursuits 📚

Dr. Ali Hassan Ali Homid’s academic journey began at Al-Azhar University, where he earned his B.Sc. in Mathematics in 2008, graduating with distinction. His passion for mathematics and theoretical physics led him to pursue higher studies, and he continued at Assiut University where he completed his M.Sc. in Applied Mathematics (Quantum Mechanics) in 2014. His early academic pursuits were driven by a fascination with the fundamental principles of quantum mechanics, which laid the foundation for his advanced research. Throughout his studies, Dr. Homid consistently excelled, earning recognition as a top student and receiving the Award for Distinction from Al-Azhar University for four consecutive years during his undergraduate education. These early academic achievements highlight his exceptional abilities and deep interest in quantum theory and mathematical modeling.

Professional Endeavors 🌍

Dr. Ali Hassan Ali Homid’s professional journey spans over a decade of research and teaching in the fields of quantum mechanics and theoretical physics. He began his career as a scientist in Quantum Information and Quantum Computation at the Academy of Scientific Research and Technology, Cairo, from 2010 to 2012. During this period, he contributed to the development of quantum algorithms and explored quantum information theory. Dr. Homid’s professional growth continued with a role as a Research Assistant at Zewail City of Science and Technology, where he worked from 2015 to 2017, collaborating on advanced research in quantum physics. Since 2012, he has been part of the Mathematics Department at Al-Azhar University, where he combines teaching with cutting-edge research. His ongoing role as a Research Volunteer at Zewail City further showcases his commitment to advancing the field.

Contributions and Research Focus 🔬

Dr. Ali Hassan Ali Homid’s research contributions are centered around the fields of quantum information theory, quantum computation, and the physical realization of quantum algorithms. His PhD thesis, “Realization of Some Quantum Algorithms Using Artificial Quantum Systems,” presents innovative techniques to develop quantum circuits and explore their applications in artificial systems, aligned with current experimental results. His Master’s thesis focused on the physical implementation of quantum gates, offering practical solutions to theoretical challenges in quantum computing. Dr. Homid has also been involved in several projects aimed at enhancing quantum information protocols and advancing the field of quantum algorithms. His work is not just theoretical but seeks to bridge the gap between conceptual frameworks and experimental applications in the quantum computing domain.

Impact and Influence 🌟

Dr. Ali Hassan Ali Homid has made a significant impact on the field of quantum mechanics and quantum computing, especially in Egypt and the wider global scientific community. His work on quantum algorithms and the development of new quantum circuits has earned him recognition in international academic circles, and his publications are regularly cited in high-impact journals. Dr. Homid’s contributions extend beyond research, as he actively participates in peer-reviewing for prominent scientific journals such as the Revista Mexicana de Física and New Journal of Physics, further solidifying his influence. His academic citations and research collaborations highlight the relevance and importance of his work. By advancing the understanding of quantum systems and their applications in real-world technologies, Dr. Homid is contributing to shaping the future of quantum computing and its technological evolution.

Academic Cites and Recognition 🏅

Dr. Ali Hassan Ali Homid’s scholarly work is widely recognized, and his research has garnered significant attention in the academic community. His Google Scholar profile showcases his contributions to quantum information science, with multiple citations of his work in prestigious journals and conferences. Dr. Homid’s influence extends through his work on the development of quantum algorithms and artificial quantum systems. His Scopus and ORCID profiles further demonstrate his standing within the scientific community, where his publications contribute to advancing quantum computing and its theoretical and practical applications. His research, particularly in the area of quantum circuits and quantum bits, has led to improvements in the design and realization of quantum algorithms, cementing his place as a thought leader in the quantum mechanics field.

Technical Skills 💻

Dr. Ali Hassan Ali Homid is highly proficient in a range of technical and computational tools essential for his research in quantum mechanics and applied mathematics. His expertise includes programming in Matlab and Mathematica, two widely used software platforms for mathematical modeling and simulation. Additionally, he is skilled in LaTeX for academic writing, as well as Microsoft Office and PowerPoint for data presentation and communication. His technical capabilities extend to the Linux and Windows operating systems, facilitating a versatile approach to his computational work. Dr. Homid’s combination of advanced programming skills and deep knowledge of quantum theory equips him to tackle complex problems in quantum information theory and computational physics.

Teaching Experience 📖

Dr. Ali Hassan Ali Homid has been an educator and mentor for over a decade. Since 2012, he has served as a lecturer in the Mathematics Department at Al-Azhar University, where he teaches courses on mathematical modeling, applied mathematics, and quantum mechanics. His teaching style integrates theoretical knowledge with practical applications, inspiring students to engage with complex concepts in quantum physics. Dr. Homid’s ability to present abstract ideas in a comprehensible way has earned him a reputation as a dedicated educator. Beyond his formal teaching, he actively contributes to the development of academic curricula and research programs, fostering a collaborative environment that nurtures young scientists interested in theoretical and experimental physics.

Legacy and Future Contributions 🔮

Dr. Ali Hassan Ali Homid’s legacy lies in his unwavering commitment to advancing the field of quantum mechanics through both teaching and research. His innovative work on quantum algorithms and artificial systems is poised to play a significant role in the future development of quantum computing technologies. Dr. Homid’s focus on creating practical solutions for quantum systems aligns with the global trend of advancing quantum technologies that could revolutionize industries like cryptography, telecommunications, and data processing. As he continues his research, Dr. Homid is expected to make further contributions that will shape the future of quantum information science, ensuring that his impact is felt for years to come. His dedication to the advancement of scientific knowledge and quantum technologies positions him as a key figure in the global scientific community.

Top Noted Publications📖

Which spin ladders are the most effective at transferring entanglements: two-legs or honeycombs!?
  • Authors: Motamedifar, M.; Abbasi, M.; Golshani, M.; Mohamed, A.-b. a.; Homid, Ali H.
    Journal: The European Physical Journal Plus
    Year: 2024
Probing the engineering squeezing and phase phenomena in defective light crystals
  • Authors: A.H. Homid; H. Bakry; M. Abdel-Aty; N. Zidan; M. Qasymeh
    Journal: Physica B: Condensed Matter
    Year: 2024-10
Synchronous observation of information loss generating among ions in a long-range Paul trap chain
  • Authors: Homid, A. H.; Mohamed, A.-b. a.; Abdel-Aty, M.
    Journal: Applied Physics B
    Year: 2023
Rashba control to minimize circuit cost of quantum Fourier algorithm in ballistic nanowires (vol 383, pg 1247, 2019)
  • Authors: Homid, A. H.; Sakr, M. R.; Mohamed, A.-B. A.; Abdel-Aty, M.; Obada, A.-S. F.
    Journal: Physics Letters A
    Year: 2022
Robust thermal correlations induced by spin-orbit interactions
  • Authors: Khedr, Ahmad N.; Homid, Ali H.; Mohamed, Abdel-Baset A.; Abdel-Aty, Abdel-Haleem; Eleuch, Hichem; Tammam, Mahmoud; Abdel-Aty, Mahmoud
    Journal: Results in Physics
    Year: 2022
Efficient quantum gates and algorithms in an engineered optical lattice
  • Authors: Homid, A. H.; Abdel-Aty, M.; Qasymeh, M.; Eleuch, H.
    Journal: Scientific Reports
    Year: 2021
Efficient realization of quantum search algorithm using quantum annealing processor with dissipation: erratum
  • Authors: A. H. Homid; A. Abdel-Aty; M. Abdel-Aty; A. Badawi; A.-S. F. Obada
    Journal: Journal of the Optical Society of America B
    Year: 2021-03-01

 

 

 

V. Sabari | Quantum Field Theory | Best Researcher Award

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Dr. V. Sabari | Quantum Field Theory | Best Researcher Award

Research Coordinator, Assistant Prodessor of Physics at Marudhar Kesari Jain College for Women, Vaniyambadi, India

Dr. V. Sabari is an accomplished academic and researcher specializing in Physics with a focus on crystallography, nanoscience, and computational techniques. He holds a Ph.D. in Physics from Presidency College, Chennai, and has published several books and patents in his field. Dr. Sabari has worked in diverse academic environments, holding assistant professorships at various institutions, including Women’s Christian College and Vel Tech University. Currently, he is serving as a faculty member at Marudhar Kesari Jain College for Women, Vaniyambadi. With a strong commitment to research and education, Dr. Sabari has guided numerous M.Sc. and Ph.D. students in their academic journeys. His work is recognized nationally and internationally, with ongoing projects funded by the DST-FIST.

🎓Profile

🧑‍🎓 Early Academic Pursuits

Dr. V. Sabari embarked on his academic journey with a strong foundation in Physics. He completed his Bachelor of Science (B.Sc.) in Physics from Govt. Thirumagal Mills College, Gudiyattam in 2006 with an impressive 78.48%. Building on this, he pursued his Master of Science (M.Sc.) in Physics from Govt. Muthurangam Arts College, Vellore in 2008 with a commendable 73.60%. To further deepen his expertise, Dr. Sabari earned his M.Phil. in Physics from Queen Mary’s College, University of Madras in 2008. His thirst for knowledge led him to pursue a Ph.D. in Physics from Presidency College, Chennai under the University of Madras, completing it in 2015 with First Class honors. This rigorous academic training laid the foundation for his future contributions in Nanoscience, Crystallography, and Computational Physics.

🧑‍🏫 Professional Endeavors

Dr. Sabari’s professional career reflects his dedication to both teaching and research. His teaching career began in 2014 when he joined Women’s Christian College, Chennai as an Assistant Professor. He continued to build his academic profile, working as an Assistant Professor in various prestigious institutions like Vel Tech University and Sree Ambiraami Arts & Science College. Since 2018, he has been serving as an Assistant Professor at Marudhar Kesari Jain College for Women, Vaniyambadi, where he has made substantial contributions to both teaching and research administration. As the Head of the PG and Research Department of Physics, Dr. Sabari has shown outstanding leadership and commitment to fostering academic excellence.

🔬 Contributions and Research Focus

Dr. Sabari’s research interests primarily lie in Crystallography, Density Functional Theory (DFT), Nanoscience, and Computational Modeling. Over the years, he has successfully guided 15 M.Sc. students on projects related to these fields and is currently supervising four Ph.D. scholars. His involvement in DST-FIST 2023 and his role as a Co-Investigator in the Level-A R&D Infrastructure project demonstrate his leadership in fostering research collaborations. Furthermore, his groundbreaking work on nanoparticles-based compositions and antimicrobial nanofiber masks has been recognized through multiple patents published in recent years. This work showcases his interdisciplinary approach and ability to bridge the gap between theoretical research and practical applications, particularly in healthcare and materials science.

🌍 Impact and Influence

Dr. Sabari’s research has not only contributed to the academic world but also holds potential for significant real-world applications. His patents, including one on “Nanoparticles-Based Compositions” and another on the reusability of antimicrobial nanofiber masks, point to the innovative edge of his work. He has also influenced the academic community through his textbooks on Physics, Bio-Physics, and Operation Research, which are essential references for many students. His role as a member of editorial boards and contributor to international journals further strengthens his influence on the global stage. His involvement in Guinness World Records for editing the “Thickest Book in the World” highlights his multifaceted contributions to both academic and global recognition.

📚 Academic Cites and Research Leadership

Dr. Sabari’s influence extends beyond his published works and patents. As a research coordinator and academic leader, he has actively contributed to faculty development programs, conferences, and seminars. He has also been a pivotal member of academic councils, showcasing his leadership skills in academic governance. His academic prowess is reflected in the guidance of Ph.D. scholars, with research topics in computational physics, nanotechnology, and molecular interactions. His ongoing research on “Computational Framework for Predictive Modeling of Molecular Interactions Using AI” is a step towards integrating cutting-edge technologies into traditional scientific methods.

💻 Technical Skills

Dr. Sabari’s technical expertise is vast and varied, ranging from small molecule crystallography to nanoscience and computational modeling. He has hands-on experience with WinGX, ORTEP, and PLATON software for structure analysis and crystallography. His proficiency extends to Density Functional Theory (DFT), Hirshfeld surface analysis, and Docking Studies using GLIDE and AutoDock. These skills underscore his capabilities in computational research, which complements his experimental work in nanoscience. His fluency with MS Office, C-programming, and Linux systems enables him to handle diverse research tasks with ease, further enhancing his productivity.

👩‍🏫 Teaching Experience

Dr. Sabari’s teaching experience spans over a decade, during which he has shaped the educational journey of numerous students in Physics. He has been involved in the design and delivery of courses in Allied Physics, Bio-Physics, Classical Mechanics, and more. As a dedicated Assistant Professor and Head of Department, he has mentored both undergraduate and postgraduate students. His student-centered approach, combined with his involvement in course coordination and faculty development programs, has created a vibrant and intellectually stimulating learning environment. Dr. Sabari’s teaching extends beyond the classroom, with his active participation in online short-term courses and faculty development programs aimed at improving academic research writing and ethical practices in academia.

🏅 Legacy and Future Contributions

Dr. Sabari has built a lasting legacy through his research publications, book authorship, and patents that push the boundaries of Physics and Nanotechnology. His ongoing efforts to guide future scholars and his active involvement in institutional development promise continued success. As a visionary educator and researcher, Dr. Sabari’s future contributions are poised to influence the fields of computational physics, nano-science, and materials science. His forward-thinking approach to interdisciplinary research and academic leadership is likely to inspire future generations of scientists and educators, leaving an indelible mark on the academic world.

📖Top Noted Publications

Synthesis, Characterization, and Comparison of Pure Zinc Oxide and Magnesium‐Doped Zinc Oxide Nanoparticles and their Application on Ethanol Sensing Activities

  • Authors: N Kangathara, V Sabari, L Saravanan, S Elangovan
  • Journal: Journal of Nanomaterials
  • Year: 2022

Effect of Cu doping with varying pH on photocatalytic activity of ZnO nanoparticles for the removal of organic pollutants

  • Authors: A Ashwini, L Saravanan, V Sabari, M Astalakshmi, N Kanagathara
  • Journal: Inorganic Chemistry Communications
  • Year: 2023

Visible light photocatalysis enhancement by Ag3PO4 decorated with RuO2 nanoparticles

  • Authors: A Ashwini, V Sabari, M Gomathi, C Esther Jeyanthi, L Saravanan, S Elangovan, N Kanagathara
  • Journal: Physica B: Condensed Matter
  • Year: 2024

Temperature-dependent dielectric investigation of dual-ions doped hydroxyapatite nanoparticles

  • Authors: S Helen, L Saravanan, V Sabari, K Senthilkumar, N Kanagathara
  • Journal: Inorganic Chemistry Communications
  • Year: 2023

Quantum chemical and MD investigations on molecular structure, vibrational (FT-IR and FT-Raman), electronic, thermal, topological, molecular docking analysis of 1-carboxy-4 …

  • Authors: CP Devipriya, S Deepa, J Udayaseelan, RaviKumar Chandrasekaran, M Aravinthraj, V Sabari
  • Journal: Chemical Physics Impact
  • Year: 2024

 

 

 

Yuri Bleyan | Computational Particle Physics | Best Researcher Award

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Dr. Yuri Bleyan | Computational Particle Physics | Best Researcher Award

Researcher/Senior Lecturer at Institute of Chemical Physics after A.B. Nalbandyan, Armenia

Yuri Bleyan, born on October 10, 1996, in Yerevan, Armenia, is a prominent researcher and lecturer in the field of quantum nanostructures. He completed his education at the Russian-Armenian University, earning a PhD in 2022 with a dissertation focused on the optical properties of excitonic complexes in quantum dots. Fluent in Armenian, Russian, and English, Yuri has actively contributed to the academic community through numerous publications and presentations at international conferences. His dedication to both research and education positions him as a leading figure in his field.

Profile:

Education:

Yuri Bleyan began his academic journey at N 147 School, followed by the Physico-Mathematical Special School after A. Shahinyan. He graduated from the Faculty of Applied Physics and Engineering at Russian-Armenian University in 2017, specializing in General Physics and Quantum Nanostructures. He continued his studies at the same institution, completing his Master’s in 2019 and his PhD in 2022, focusing on the investigation of optical properties in quantum dots. His educational background provides a solid foundation for his research pursuits.

Professional Experience:

Yuri’s professional experience includes a role as a junior researcher at the Mathematical Modeling of Quantum Systems Laboratory, followed by a teaching assistantship at Russian-Armenian University. Since 2021, he has served as a lecturer at the university and as a physics teacher at “Usmunq” School, specializing in physics, mathematics, and biomedical classes. In 2023, he joined the Quantum Optics and Nanophotonics group at the Institute of Chemical Physics after A. B. Nalbandyan NAS RA, where he continues to advance his research.

Research Focus:

Yuri’s research primarily focuses on the optical properties of semiconductor quantum dots and excitonic complexes. His work investigates various phenomena, including biexciton and trion states, magneto-optical properties, and the nonlinear optical behavior of these nanostructures. By exploring these areas, Yuri aims to contribute to the development of next-generation optoelectronic devices and enhance the understanding of quantum materials, positioning his research at the forefront of contemporary physics.

Awards and Honors:

Yuri Bleyan has received notable accolades, including the Educational Award from the President of the Republic of Armenia for being the Best Master Student in 2018, and the Educational Award from the Ministry of Education and Science as the Best Master’s Student in 2019. These awards recognize his academic excellence and commitment to research in the IT sphere, highlighting his contributions to the scientific community.

Publication Top Notes:

Title: Biexciton, negative and positive trions in strongly oblate ellipsoidal quantum dot
  • Authors: DB Hayrapetyan, YY Bleyan, DA Baghdasaryan, HA Sarkisyan, …
    Year: 2019
    Citations: 29
Title: Non-linear optical properties of biexciton in ellipsoidal quantum dot
  • Authors: YY Bleyan, PA Mantashyan, EM Kazaryan, HA Sarkisyan, G Accorsi, …
    Year: 2022
    Citations: 11
Title: Magnetobiexciton in strongly oblate ellipsoidal quantum dot
  • Authors: YY Bleyan, DB Hayrapetyan
    Year: 2022
    Citations: 5
Title: Tuning Terahertz Recombination Transitions of Quaternion States in Ellipsoidal Quantum Dot
  • Authors: YY Bleyan, DB Hayrapetyan
    Year: 2019
    Citations: 5
Title: Impact of intense laser Bessel beam on excitonic complexes in ellipsoidal quantum dot
  • Authors: YY Bleyan, T.A. Sargsian, A.A. Kostanyan, D.B. Hayrapetyan, P.A. Mantashyan
    Year: 2023
    Citations: 3
Title: Optical properties of biexcitons in ellipsoidal quantum dot
  • Authors: YY Bleyan, DB Hayrapetyan, HA Sarkisyan, EM Kazaryan
    Year: 2018
    Citations: 3
Title: Investigation of Biexciton Induced Linear and Nonlinear Refractive Index Changes in Ellipsoidal Quantum Dot
  • Authors: YY Bleyan
    Year: 2022
    Citations: 1

 

 

Felix Lev | Particle physics and cosmology | Outstanding Scientist Award

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Prof Dr. Felix Lev | Particle physics and cosmology | Outstanding Scientist Award

Physics/Mathematics, Independent Researcher, United States

Felix Lev is a prominent physicist specializing in quantum theory and mathematics. He earned his Doctorate in Physical and Mathematical Sciences in 1991 and has made significant contributions to foundational physics, particularly in understanding the particle-antiparticle dilemma and cosmological challenges. Lev is also a seasoned scientist with extensive experience in software development for integrated circuit design, bridging theoretical physics with practical applications. His influential book, “Finite Mathematics as the Foundation of Classical Mathematics and Quantum Theory,” showcases his groundbreaking research.

Profile:

Education:

Felix Lev holds a Doctorate in Physical and Mathematical Sciences from the Institute for High Energy Physics, awarded in 1991, where his dissertation focused on the many-body problem in relativistic quantum mechanics. Prior to that, he earned a Ph.D. in 1977 from the Institute of Theoretical and Experimental Physics in Moscow, with a dissertation on elastic scattering processes. He also completed his Master’s in Physics at the Moscow Institute for Physics and Technology in 1971. His educational background has laid a strong foundation for his research and contributions to theoretical physics and mathematics.

Professional Experience:

Lev has a distinguished career as a physicist and scientist. He served as a Senior Scientist at Artwork Conversion Software from 1999 to 2024, developing cutting-edge optimization algorithms for integrated circuit design while continuing his research in quantum theory. Previously, he was a Leading Scientist at the Joint Institute for Nuclear Research in Russia from 1992 to 1999 and held key roles at various research institutes throughout his career. He also has teaching experience, having lectured on topics like relativistic quantum mechanics at several prestigious institutions, including Santa Monica Community College and the Joint Institute for Nuclear Research.

Research focus:

Felix Lev’s research primarily centers on the foundations of quantum theory and mathematics. He is particularly interested in constructing quantum theory based on finite mathematics and exploring de Sitter symmetry’s implications. His work addresses fundamental issues such as the particle-antiparticle problem, the cosmological constant problem, and the challenges of cosmic acceleration. Lev’s approach proposes innovative solutions that redefine traditional views, suggesting that gravity may stem from the finiteness of nature. His publications and theories aim to reshape our understanding of quantum mechanics and its foundational principles, offering a fresh perspective on the universe’s mysteries.

Awards and Honors:

Felix Lev has received notable accolades throughout his career. In 1997, he was awarded the Heisenberg-Landau Grant, a prestigious personal grant from the Max Planck Institute of Physics and the Joint Institute for Nuclear Research, recognizing his exceptional contributions to theoretical physics. Additionally, he was honored as a Senior Scientist in Theoretical and Mathematical Physics in 1987 by the Presidium of the USSR Academy of Sciences. These awards reflect his significant impact on the fields of quantum theory and mathematics, emphasizing his status as a leading researcher.

Publication Top Notes:

  • Exact construction of the electromagnetic current operator in relativistic quantum mechanics
    Authors: FM Lev
    Year: 1995
    Citations: 80 📄
  • On the role of K∗ K intermediate states in OZI-rule violating reactions of antiproton annihilation
    Authors: D Buzatu, FM Lev
    Year: 1994
    Citations: 76 📄
  • Poincaré covariant current operator and elastic electron-deuteron scattering in the front-form Hamiltonian dynamics
    Authors: FM Lev, E Pace, G Salme
    Year: 2000
    Citations: 73 📄
  • Electromagnetic and weak current operators for interacting systems within the front-form dynamics
    Authors: FM Lev, E Pace, G Salme
    Year: 1998
    Citations: 70 📄
  • Relativistic quantum mechanics and its applications to few-nucleon systems
    Authors: FM Lev
    Year: 1993
    Citations: 67 📄
  • Deuteron magnetic and quadrupole moments with a Poincaré covariant current operator in the front-form dynamics
    Authors: FM Lev, E Pace, G Salme
    Year: 1999
    Citations: 55 📄
  • Finiteness of physics and its possible consequences
    Authors: F Lev
    Year: 1993
    Citations: 40 📄
  • Deep inelastic scattering and final state interaction in an exactly solvable relativistic model
    Authors: E Pace, G Salme, FM Lev
    Year: 1998
    Citations: 37 📄

 

 

 

Ronabson Cardoso Fernandes| Particle physics and cosmology| Best Researcher Award

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Dr. Ronabson Cardoso Fernandes| Particle physics and cosmology| Best Researcher Award

Professor at UNINTER, Brazil

Ronabson Cardoso Fernandes is a distinguished researcher in the field of nuclear physics, recognized for his contributions to particle physics and cosmology. He has an extensive academic background, with numerous publications in prestigious journals. His research focuses on understanding fundamental interactions and the nature of the universe, making significant strides in theoretical and experimental physics.

Profile:

Education:

Ronabson Cardoso Fernandes holds a PhD in Climate Sciences from the Federal University of Rio Grande do Norte (2017), a Master’s in Meteorology from the Federal University of Alagoas (2010), and a Bachelor’s degree in Meteorology (2007) from the same institution. He further expanded his expertise with a graduation in Mathematics in 2019 and completed a Postdoctoral Fellowship in Climatology and Computational Mathematics at the Federal University of Mato Grosso do Sul (2022). His educational journey includes numerous short courses, enhancing his skills in entrepreneurship, digital marketing, and financial management.

Professional experience:

Dr. Fernandes has extensive teaching experience, having served as a professor at several institutions, including UFRN and the Federal University of Alagoas. His roles have involved teaching courses in climatology, meteorology, calculus, and physics. He has also worked as a mathematics teacher in elementary education. Beyond academia, he is a consultant in higher education and has participated in various research and extension projects focused on climate dynamics and environmental education. His dedication to both teaching and community engagement reflects his commitment to integrating scientific knowledge with practical applications.

Research focus:

Dr. Fernandes’s research focuses on the interaction between climate forcings and precipitation patterns, particularly in the North and Northeast regions of Brazil. He explores the impact of atmospheric phenomena on weather extremes and environmental dynamics, aiming to improve forecasting models. His work involves assessing the influence of galactic cosmic rays on rainfall and studying socio-environmental impacts of climate change, particularly coastal erosion. Additionally, he is engaged in developing computational models for environmental simulations and promoting sustainable practices through community-based projects, highlighting the intersection of scientific research and real-world applications.

Awards and Honors:

Throughout his academic career, Ronabson Cardoso Fernandes has received multiple scholarships and research grants, highlighting his contributions to the field of meteorology and climate sciences. He has been recognized for his work by state research support foundations, such as FAPERN and FAPEAL, which funded his graduate studies and projects. His commitment to interdisciplinary research and community outreach has also earned him accolades, fostering collaboration between academia and society to address pressing environmental issues. These honors reflect his dedication to advancing knowledge and promoting sustainability in Brazil.

Publication Top Notes:

Influence of Galactic Cosmic Ray Flux on Extreme Rainfall Events in Greece and Libya

  • Authors: Fernandes, R.C., Wanderley, H.S., Carvalho, A.L., Frigo, E.
  • Publication Year: 2024
  • Citations: 0

Relationship Between Extreme Rainfall Occurrences and Galactic Cosmic Rays over Natal/RN, Brazil: A Case Study

  • Authors: Fernandes, R.C., Wanderley, H.S., De Carvalho, A.L., Frigo, E.
  • Publication Year: 2023
  • Citations: 2

Thermal Change in the City of Rio de Janeiro and the Deviation Caused During an Intense El Niño Event

  • Authors: Wanderley, H.S., Fernandes, R.C., De Carvalho, A.L.
  • Publication Year: 2019
  • Citations: 6

Data Imputation Analysis for Cosmic Rays Time Series

  • Authors: Fernandes, R.C., Lucio, P.S., Fernandez, J.H.
  • Publication Year: 2017
  • Citations: 3

 

 

 

Weihong Gao | Computational Particle Physics | Women Researcher Award

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Mrs. Weihong Gao | Computational Particle Physics | Women Researcher Award

Associate Professor at Harbin Engineering University in China

Dr. Weihong Gao is an esteemed Associate Professor at the School of Materials Science and Chemical Engineering, Harbin Engineering University. With a research career spanning over a decade, Dr. Gao has made significant contributions to the study of shape memory alloys, thermoelectric materials, and material surface interactions. After completing her Ph.D. at Harbin Institute of Technology, she furthered her research through postdoctoral positions and visiting scholar programs at prestigious institutions such as the University of Houston and the National Institute for Materials Science (NIMS) in Japan. Her work is frequently published in leading scientific journals, where she collaborates with experts worldwide. Dr. Gao is also actively involved in mentoring young researchers and contributing to advancing knowledge in materials science.

Profile:

Education:

Dr. Weihong Gao began her academic journey in 2005 by earning a Bachelor’s degree in Materials Physics from the School of Materials Science and Chemical Engineering at Harbin Engineering University, China, in 2009. Continuing her pursuit of knowledge, she completed his Master’s degree in Materials Physics and Chemistry from the same institution in 2012. Dr. Gao achieved her Ph.D. in Materials Physics and Chemistry from the Harbin Institute of Technology in 2015. During her Ph.D., Dr. Gao expanded her horizons by working as a visiting scholar at the University of Houston’s Smart Materials and Structure Laboratory. Her education has been deeply interdisciplinary, with a strong emphasis on advanced materials research, making him a notable figure in materials physics and engineering.

Professional experience:

Dr. Weihong Gao’s professional experience spans multiple esteemed institutions. After completing her Ph.D. in 2015, she worked as a visiting scholar at the Smart Materials and Structure Laboratory at the University of Houston. In 2017, she took on a postdoctoral position in Materials Science and Engineering at the Guangdong University of Technology, further enriching her expertise. From 2017 to 2019, Dr. Gao also worked as a visiting scholar at the Texas Center for Superconductivity at the University of Houston. In 2019, she moved to the National Institute for Materials Science (NIMS) in Japan as a postdoc, where she contributed to groundbreaking research in thermoelectrics. Currently, Dr. Gao serves as an Associate Professor at Harbin Engineering University, where she leads research on shape memory alloys, thermoelectric materials, and material surfaces and interfaces.

Research focus:

Dr. Weihong Gao’s research is centered around advanced materials, specifically shape memory alloys, thermoelectric materials, and material surfaces and interfaces. Her expertise in first-principles calculations enables him to analyze and predict the behavior of materials at the atomic level, contributing to developments in both theoretical and applied materials science. Dr. Gao is particularly interested in improving the mechanical properties and thermal stability of shape memory alloys, which have applications in aerospace, automotive, and medical devices. Additionally, her work on thermoelectric materials focuses on optimizing energy conversion efficiency, a critical area for sustainable energy solutions. Her research combines experimental methods and computational simulations, aiming to enhance the performance of advanced materials in extreme environments.

Award and Honors:

Dr. Weihong Gao has received numerous accolades throughout her research career for her outstanding contributions to materials science. Her work on shape memory alloys and thermoelectric materials has earned recognition in international journals, leading to invitations to serve as a visiting scholar in world-renowned laboratories like the University of Houston and the Texas Center for Superconductivity. She has also been the recipient of several postdoctoral fellowships, including at the prestigious National Institute for Materials Science (NIMS) in Japan. Dr. Gao’s commitment to research excellence has been recognized with multiple awards from institutions in China and beyond, solidifying her reputation as a leading figure in the field of materials physics and chemistry.

Publication Top Notes:

  • Classical tribology and charge-energy evolution theory cooperate to determine nitrided ceramic coating/metal substrate interfacial friction
    Guotan Liu, Zhihao Huang, Weihong Gao*, Bin Sun, Yunxiang Tong, Guosheng Huang*, Yudong Fu*
    Acta Materialia 277 (2023) 120197
  • Data-driven high elastocaloric NiMn-based shape memory alloy optimization with machine learning
    Y. Yang, H. Fu, W. Gao*, W. Su, B. Sun, X. Yi, T. Zheng, X. Meng
    Materials Letters 371 (2023) 136948
  • Recent Advances on Additive Manufactured Shape Memory Alloys
    Y. Yang, W. Gao*, Bin Sun, Y. Fu, X. Meng
    Transactions of Nonferrous Metals Society of China 34 (7) (2023) 2045-2073
  • Understanding the anomalously low thermal properties of Zr₃Ni₃₋ₓCoₓSb₄ thermoelectric material
    X. Wei, Z. Guo, D. Li, C. Li, B. Sun, Y. Fu, W. Gao, Z. Liu
    Materials Today Physics 44 (2023) 101424
  • Mechanical behavior of high entropy ceramic (TiZrHfVNb)C₅ under extreme conditions: A first-principles density functional theory study
    Zesong Wang, Guotan Liu, Weihong Gao*, Yuxi Yang, Ting Zheng, Zhi-Quan Liu, Peifeng Li, Mufu Yan, Yudong Fu*
    Ceramics International 50 (6) (2023) 9820-9831
  • Enhancing the thermal stability and recoverability of ZrCu-based shape memory alloys via interstitial doping
    Yuxi Yang, Mingqi Deng, Weihong Gao*, Bin Sun, Yudong Fu*, Xianglong Meng
    Materials Science and Engineering: A 889 (2024) 145860
  • Cubic phase stabilization and thermoelectric performance optimization in AgBiSe₂–SnTe system
    Zhentao Guo, Yu-Ke Zhu, Ming Liu, Xingyan Dong, Bin Sun, Fengkai Guo, Qian Zhang, Juan Li, Weihong Gao*, Yudong Fu*, Wei Cai, Jiehe Sui, Zihang Liu*
    Materials Today Physics 38 (2023) 101238
  • Atomic-level insights from density functional theory and ab initio molecular dynamics calculations for oxidation mechanism of transition metal doping Nb₄AlC₃(0001) surface
    Guotan Liu, Weihong Gao*, Guosheng Huang, Danni Zhao, Wenlong Su, Bin Sun, Mufu Yan, Yu-dong Fu
    Ceramics International 49 (2023) 40061-40072
  • Modification mechanism of Ti-6Al-4V alloy with pre-coated Ti-Cu-Al multilayer film treated by ion nitriding: Experiments and first-principles calculations
    Guotan Liu, Enhong Wang, Weihong Gao*, Zhihao Huang, Bin Wei, Yuxi Yang, Mufu Yan, Yu-dong Fu*
    Surfaces and Interfaces 40 (2023) 103004
  • Study on the microscopic mechanism of age-strengthened high damage tolerance Al–Cu–Mg alloys
    Guotan Liu, Weihong Gao*, Guosheng Huang*, Keqiang Sun, Bin Sun, Jinlai Fu, Ting Li, Fuguan Cong, Yudong Fu*
    Vacuum 216 (2023) 112442

Conclusion:

Given Weihong Gao’s substantial publication record, international collaborations, and innovative contributions to the fields of shape memory alloys and thermoelectric materials, She is an outstanding candidate for the Best Researcher Award. Her work not only advances theoretical understanding but also offers real-world applications that could significantly impact technology and industry.