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

 

 

Bishwabhusan Sutar | Particle physics and cosmology | Young Scientist Award

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Mr. Bishwabhusan Sutar | Particle physics and cosmology | Young Scientist Award

Research scholar at C.V. Raman Global University, Odisha, India

👨‍🎓 Profiles

🌟Summary

🔍 Passionate Researcher & Educator: Currently pursuing a Ph.D. in Mathematics at C.V. Raman Global University. Deeply interested in cosmology, mathematical physics, and integral transforms, with a strong commitment to teaching and inspiring students. Actively contributing to the academic world through research in modified theories of gravity and cosmological wormholes. Seeking an Assistant Professor position in Mathematics to continue academic and research growth.

🎓Education

🎓 Ph.D. in Mathematics (2021-Present)
      C.V. Raman Global University, Bhubaneswar, Odisha
      Thesis: Cosmological wormholes in general and modified theories of gravity
      CGPA: 7.69 (Coursework)

🎓 M.Sc. in Mathematics (2017-2019)
      Sambalpur University, Sambalpur, Odisha
First Class with Distinction

🎓 B.Sc. in Mathematics (2014-2017)
      Utkal University, Bhubaneswar, Odisha
      Honours: 77%

💼Professional Experience

📚 Teaching Assistant (2021-Present)
      C.V. Raman Global University, Bhubaneswar, Odisha

  • Assisted in delivering undergraduate mathematics courses.
  • Led tutorials and provided academic support for B.Tech, Diploma, and M.Sc. students.

🧑‍🏫 Research Scholar (2021-Present)
     C.V. Raman Global University, Bhubaneswar, Odisha

  • Conducting research in cosmology, mathematical physics, and modified gravity theories.

🔬Research Interests

🌌 Cosmology & Gravitational Physics

  • Focus on cosmological wormholes and modified theories of gravity
  • Exploring Lyra manifold, Brans-Dicke theory, and Barber’s second self-creation theory

📐 Mathematical Physics & Applied Mathematics

  • Applications of integral transforms in solving differential equations
  • Advanced mathematical models for real-world physical phenomena

🏆 Awards & Recognition

  • Selected for PostGraduate Scholarship by the Institute of Mathematics and Applications, Odisha
  • Awarded e-medhabruti Merit Scholarship by the Government of Odisha

🖥Skills

🖥️ Technical: Latex, Mathematica, Matlab, Python, MS Office
🗣️ Soft Skills: Effective Communication, Teaching, Analytical Thinking, Problem Solving

 Publications

Traversable wormhole supported by non-exotic gravitational fluid in the Lyra manifold
  • Authors: Sutar, B., Mahanta, K.L., Sahoo, R.R.
    Journal: Chinese Journal of Physics
    Year: 2024
Traversable wormhole solutions in Barber’s second self-creation theory
  • Authors: Sutar, B., Mahanta, K.L., Sahoo, R.R.
    Journal: Indian Journal of Physics
    Year: 2024
Traversable wormhole solutions admitting Karmarkar condition in Lyra manifold
  • Authors: Sutar, B., Mahanta, K.L., Sahoo, R.R.
    Journal: European Physical Journal Plus
    Year: 2023

 

 

Shri Krishna | High energy physics | Best Researcher Award

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Dr. Shri Krishna | High energy physics | Best Researcher Award

Assistant Professor at Zakir Husain Delhi College, University of Delhi, India

Dr. Shri Krishna is a distinguished researcher and academic in theoretical high-energy physics, currently serving as an Assistant Professor at Zakir Husain Delhi College, University of Delhi. He earned his Ph.D. in Theoretical High Energy Physics from Banaras Hindu University (BHU) in 2015 under the supervision of Prof. R.P. Malik. His research centers on supersymmetric quantum mechanics and BRST symmetry within the framework of higher p-form gauge theories. Dr. Krishna’s academic journey also includes post-doctoral research at the Indian Institute of Science Education and Research (IISER) Mohali, where he worked with Prof. C.S. Aulakh. With numerous scientific publications in reputable journals, his work has significantly contributed to advancing the understanding of gauge theories and quantum mechanics. He has presented his research at national and international conferences, enhancing his recognition in the scientific community.

Profile:

Education:

Dr. Shri Krishna holds a Ph.D. in Theoretical High Energy Physics from Banaras Hindu University (BHU), Varanasi, completed in 2015. His doctoral research, supervised by Prof. R.P. Malik, focused on investigating (Non-)Abelian p-form gauge theories and supersymmetric quantum mechanics. Before his Ph.D., Dr. Krishna pursued an M.Phil. in Physics at Chhatrapati Shahu Ji Maharaj University (CSJMU), Kanpur, in 2009, where he gained a strong foundation in advanced physics concepts. He also earned his M.Sc. in Physics from CSJMU in 2006, further refining his understanding of theoretical and experimental physics. Dr. Krishna’s undergraduate studies, completed in 2002 at CSJMU, focused on Physics, Mathematics, and Chemistry. His robust educational background has equipped him with the knowledge and expertise to contribute meaningfully to the field of high-energy theoretical physics, especially in gauge theory and supersymmetry.

Professional experience:

Dr. Shri Krishna brings a wealth of experience from both research and teaching roles. After completing his Ph.D. in 2015, he undertook post-doctoral research at IISER Mohali, working with Prof. C.S. Aulakh from September 2015 to August 2018. His post-doctoral work focused on gauge theories and supersymmetry, contributing to the field with several impactful publications. Following this, Dr. Krishna transitioned into academia as an Assistant Professor (Ad-hoc) at Zakir Husain Delhi College and Miranda House, University of Delhi, where he has been teaching since August 2018. His teaching portfolio includes Quantum Mechanics, Electronics, Wave & Optics, and Elements of Modern Physics, among other subjects. His dual experience in advanced research and teaching has allowed him to bridge the gap between theoretical physics and pedagogical practice, offering students insights from cutting-edge research while guiding them through complex physics concepts.

Research focus:

Dr. Shri Krishna’s research focuses on higher p-form (p = 2, 3, 4) gauge theories within the framework of BRST and super field formulations. His work delves into the intricacies of supersymmetric quantum mechanics, particularly exploring N = 2, 4 systems and their novel symmetries. He has made significant contributions to understanding (non-)Abelian 2-form and 3-form gauge theories, which play a pivotal role in field theory and quantum mechanics. A key aspect of his research is developing theoretical models that unify aspects of gauge invariance, supersymmetry, and Hodge theory, aiming to offer deeper insights into the foundational principles of high-energy physics. Dr. Krishna continues to push the boundaries of these complex systems through his work on the BRST approach and super field methods, which hold promise for advancing theoretical models in high-energy particle physics.

Awards and Honors:

Dr. Shri Krishna has received several recognitions for his contributions to theoretical high-energy physics. During his academic career, he was awarded research fellowships at prestigious institutions, including his Ph.D. studies under the supervision of Prof. R.P. Malik at Banaras Hindu University (BHU). His research on BRST symmetry and gauge theories has been widely recognized, resulting in multiple publications in high-impact journals such as Annals of Physics and Eur. Phys. J. C. Additionally, Dr. Krishna has been invited to present his work at numerous national and international conferences, highlighting his research in areas like N = 2, 4 supersymmetric quantum mechanics and p-form gauge theories. These accolades reflect his dedication to advancing theoretical physics and his growing reputation within the academic and scientific communities.

Publication Top Notes:

  • A quantum mechanical example for Hodge theory
    S. Krishna, R. P. Malik
    Annals of Physics, 2024, 464, 169657.
    Citations: 1
  • A massive field-theoretic model for Hodge theory
    S. Krishna, R. Kumar, R. P. Malik
    Annals of Physics, 2020, 414, 168087.
    Citations: 12
  • Effective sextic superpotential and B – L violation in NMSGUT
    C. S. Aulakh, R. L. Awasthi, S. Krishna
    Pramana – Journal of Physics, 2017, 89(4), 51.
    Citations: 2
  • Augmented superfield approach to gauge-invariant massive 2-form theory
    R. Kumar, S. Krishna
    European Physical Journal C, 2017, 77(6), 387.
    Citations: 7
  • N = 4 supersymmetric quantum mechanical model: Novel symmetries
    S. Krishna
    International Journal of Modern Physics A, 2017, 32(11), 1750055.
    Citations: 1
  • Novel symmetries in an interacting N = 2 supersymmetric quantum mechanical model
    S. Krishna, D. Shukla, R. P. Malik
    International Journal of Modern Physics A, 2016, 31(19), 1650113.
    Citations: 8
  • N = 2 SUSY symmetries for a moving charged particle under influence of a magnetic field: Supervariable approach
    S. Krishna, R. P. Malik
    Annals of Physics, 2015, 355, pp. 204–216.
    Citations: 15
  • A free N = 2 supersymmetric system: Novel symmetries
    S. Krishna, R. P. Malik
    EPL, 2015, 109(3), 31001.
    Citations: 11
  • Augmented superfield approach to nilpotent symmetries of the modified version of 2D Proca theory
    A. Shukla, S. Krishna, R. P. Malik
    Advances in High Energy Physics, 2015, 2015, 258536.
    Citations: 9
  • Nilpotent and absolutely anticommuting symmetries in the Freedman-Townsend model: Augmented superfield formalism
    A. Shukla, S. Krishna, R. P. Malik
    International Journal of Modern Physics A, 2014, 29(31), 1450183.
    Citations: 5

Conclusion:

Dr. Shri Krishna is an accomplished researcher with a strong foundation in theoretical high-energy physics. His focus on supersymmetric quantum mechanics and gauge theories positions him as a strong candidate for the Best Researcher Award. With additional outreach and interdisciplinary collaborations, he could further elevate his already impressive academic standing.

 

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.