Xiang-Gui Li | Computational Methods | Best Researcher Award

Published on by High Energy Physics

Prof. Xiang-Gui Li | Computational Methods | Best Researcher Award

Chair Professor at Beijing Information Science and Technology University | China

Li Xiang-Gui is a distinguished academic and researcher in computational and applied physics, currently serving as a Chair Professor at the School of Applied Science, Beijing Information Science and Technology University. With over three decades of experience, he is known for his influential work in quantum physics, numerical analysis, and hydrodynamic simulation, underpinned by a deep mathematical foundation.

👨‍🎓Profile

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ORCID

🎓 Early Academic Pursuits

Dr. Li began his academic journey with a B.S. and M.S. in Applied Mathematics from the Beijing Institute of Technology, graduating with distinction. His strong interest in mathematical modeling and physical systems led him to pursue a Ph.D. at the Chinese Academy of Engineering and Physics, specializing in Applied Physics and Computational Mathematics—a critical step that shaped his interdisciplinary approach to research.

🧑‍🔬 Professional Endeavors

Dr. Li’s career spans prestigious institutions and vital academic roles. From 1989 to 2004, he worked as a Lecturer and Associate Professor at the University of Petroleum, followed by his role as Associate Professor at Beijing Information Technology Institute. Since 2004, he has been with Beijing Information Science and Technology University, where he served as Professor, Dean, and now as Chair Professor, contributing to both academic development and institutional growth.

🔬 Contributions and Research Focus

Dr. Li’s research covers a broad spectrum including computational physics, quantum theory, numerical simulations, and hydrodynamics. His work often bridges theoretical modeling and real-world applications, notably in fields involving complex physical systems and energy research. His expertise in numerical analysis plays a vital role in solving high-dimensional, non-linear physical problems through computational approaches.

🌍 Impact and Influence

With a career deeply rooted in education, leadership, and advanced research, Dr. Li has influenced numerous students, academic programs, and scientific advancements. His work has applications in petroleum research, defense simulations, and quantum mechanics, impacting both academia and industry. His long tenure as a dean and academic leader illustrates his capability to shape research culture and foster innovation.

đź“š Academic Cites and Recognition

Though specific citation metrics are not listed, Dr. Li’s national recognition, such as the Third Prize for Outstanding Research from the National Petroleum Corporation of China (1998), attests to the quality and societal impact of his research. His Ph.D. from a top-tier national research academy further adds to his credibility as a leading scientist in his field.

🧪 Research Skills

Dr. Li possesses deep expertise in computational modeling, quantum simulation, numerical methods and algorithms, and hydrodynamic code development. These advanced skills empower him to address multi-scale and multi-physics problems across both academic and applied research environments. By leveraging his strong foundation in mathematics, he effectively utilizes it as a powerful tool for scientific discovery, enabling precise simulation and analysis of complex physical systems.

👨‍🏫 Teaching Experience

Over his long academic career, Dr. Li has mentored numerous undergraduate, postgraduate, and doctoral students. His contributions as a professor and former dean reflect his dedication to education, curriculum development, and academic mentorship in the fields of applied mathematics and physics.

🏅 Awards and Honors

Dr. Li was awarded the Third Prize for Outstanding Research by the National Petroleum Corporation of China in 1998, a recognition of his exceptional research contributions with practical industrial value. This award marks him as a nationally recognized expert in simulation-based research.

🌟 Legacy and Future Contributions

As a Chair Professor and senior academic leader, Dr. Li is expected to continue shaping the future of computational physics and scientific education in China. With his deep foundation in theory and extensive experience, his legacy lies not only in his research output, but also in his institutional leadership and mentorship of the next generation of scientists.

Publications Top Notes

The Energy-Diminishing Weak Galerkin Finite Element Method for the Computation of Ground State and Excited States in Bose-Einstein Condensates

  • Authors: L. Yang, X. Li (Xianggui Li), W. Yan, R. Zhang
    Journal: Journal of Computational Physics
    Year: 2025

High-Order Numerical Methods with Mass and Energy Conservation for Spin–Orbit-Coupled Bose–Einstein Condensates

  • Authors: Xiang-Gui Li, Shu-Cun Li
    Journal: International Journal of Computer Mathematics
    Year: 2021

High-Order Conservative Schemes for the Nonlinear Dirac Equation

  • Authors: Shu-Cun Li, Xiang-Gui Li
    Journal: International Journal of Computer Mathematics
    Year: 2020

Self-Organization of Ultra-Thin Uranium Film

  • Authors: X. Li, S. Li, M. Li, M. Zhou, F. Zheng, P. Zhang
    Journal: Physics Letters A: General, Atomic and Solid State Physics
    Year: 2019

High-Order Compact Methods for the Nonlinear Dirac Equation

  • Authors: S.-C. Li, X.-G. Li
    Journal: Computational and Applied Mathematics
    Year: 2018

 

Gopalakrishnan T | Computational Fluid Dynamics | Member

Published on by High Energy Physics

Gopalakrishnan T | Computational Fluid Dynamics | Member

PHD at Vels Institute of Science and Technology, India

Gopalakrishnan T is a dedicated academician and researcher specializing in Engineering Design and Composite Materials. Currently pursuing a PhD at Vels Institute of Science and Technology, he holds an M.E. in Computer Aided Design from Government College Of Engineering, Salem, and a B.E. in Aeronautical Engineering from J.J College Of Engineering and Technology, Trichy. With a passion for innovation, he has contributed significantly to the field through his research projects and publications. Gopalakrishnan also possesses strong teaching credentials, serving as an Assistant Professor at VISTAS, Pallavaram, Chennai. His expertise includes design software such as CatiaV6 R12 and Auto CAD, along with analysis software like MSC Nastran/Patran and ANSYS 14.5.

Professional Profiles:

Academic Background

PhD: Pursuing at Vels Institute of Science and Technology M.E (Computer Aided Design): Government College Of Engineering, Salem, Anna University, Chennai, 2012-2014, CGPA: 9.01 B.E (Aeronautical Engineering): J.J College Of Engineering and Technology, Trichy, Anna University, Chennai, 2008-2012, CGPA: 8.4 HSC: M.S.P.S.N.M Higher Secondary School, Dindigul, State Board (TN), 2007-2008, Percentage: 89.75 SSLC: Government Higher Secondary School, Thogaimalai, State Board (TN), 2005-2006, Percentage: 89.4

Work Experience

Assistant Professor: School of Engineering, Department of Mechanical Engineering, VISTAS, Pallavaram, Chennai (since July 18, 2014) Teaching Assistant: Department of Mechanical Engineering, Govt. College of Engineering, Salem (from August 4, 2012, to May 15, 2012) Skills: MS Office (Excel, Word), Design software (CatiaV6 R12, Auto CAD), Analysis Software (MSC Nastran/Patran, ANSYS 14.5)

Area of Specialization

Engineering Design, Composite Materials, Materials Engineering.

 

Scholastic Achievements

TEQIP Merit Scholarship: Received for securing 41.2 marks in TANCET 2012. Ranked 6th in Anna University B.E Degree Examination (2008-2012): Out of over 160 students. Merit Certificate: Awarded for obtaining School First in 10th Standard.

Research Focus:

Gopalakrishnan T’s research primarily focuses on materials science and engineering, particularly in the areas of composite materials, surface modification, and machining processes. His extensive work encompasses experimental investigations into the performance enhancement of various materials such as steel and composites using nano fluids and additives like Molybdenum disulfide. Additionally, he has contributed significantly to the understanding of fatigue analysis, fracture toughness reinforcement, and design optimization techniques in mechanical components. Gopalakrishnan’s research not only advances the fundamental understanding of materials but also addresses practical engineering challenges, making valuable contributions to both academia and industry.

Publications 

  1. Experimental investigation of EN-31 steel surface grinding performance with Al2O3 and CuO nano fluids, cited by: 15, published by: 2015
  2. Cast Off expansion plan by rapid improvement through Optimization tool design, Tool Parameters and using Six Sigma’s ECRS Technique, cited by: 13, published by: 2017
  3. Investigating concentration of nano-particles influence in Molybdenum disulfide waste cooking oil nanofluid for machining of SAE 1144 in surface finish enhancement, cited by: 10, published by: 2023
  4. Effects of Molybdenum disulfide nano-particles’ concentration on waste cooking oil nanofluid in reduction feed force in CNC wet machining of SAE 1144 steel, cited by: 10, published by: 2023
  5. Fracture toughness reinforcement by CNT on G/E/C hybrid composite, cited by: 8, published by: 2021
  6. Advances in implant for surface modification to enhance the interfacial bonding of shape memory alloy wires in composite resins, published by: 2024
  7. Numerical Simulation on Fluidic Oscillator by Supersonic Flow Mechanism, published by: 2022
  8. CFD based shape optimization of axisymmetric cavitators in supercavitating flows, published by: 2020
  9. Synthesize and characterization of fly ash based nanocomposites, published by: 2020
  10. Numerical Investigation and Optimization of Shape and Design Parameters of Lift Rod of Helicopter, published by: 2019.

 

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