Prof. Jie Tian is currently working toward the Ph.D. degree in fluid machinery and engineering in College of Energy and Power Engineering at Nanjing University of Aeronautics and Astronautics. He received his bachelor’s degree from Nanjing University of Aeronautics and Astronautics. Hisresearch interest is the experimental testing techniques in hypersonic intake and exhaust system, including the Particle Image Velocimetry and the PIV-based reconstruction measurement techniques. Jinglei Xu is a professor at Nanjing University of Aeronautics and Astronautics.He obtained his Ph.D. in Fluid Machinery and Engineering from Xi'an Jiaotong University in 1999.He has received several prestigious awards such as the second prize for National Science and Technology Progress of China, the gold medal at the Geneva International Invention Exhibition, etc.His research interests include engine internal flow aerodynamics, propulsion systems for hypersonic aircraft, wind tunnel experimental technology, etc. Hehas published more than 180 papers as the first or corresponding author, including over 70 SCI papers and 2 monographs. He has been the member of the Engine Soft Science Professional Committee of the Chinese Aeronautical Society, the chair of the 4th International Symposium of Thermal-Fluid Dynamics (ISTFD).

Dr. Ralf Sussmann Studies of Physics at the Technical University of Munich, finished 1994 with a summa cum laude PhD in physical chemistry – molecular spectroscopy. In 1995-1996 postdoc in atmospheric sciences. Since 2000 leader of research group "Atmospheric Variability and Trends" at KIT/IMK-IFU. University lecturer ("Privatdozent") at the University of Augsburg with a Venia Legendi for "Climate and Environmental Sciences". Research Interests Physics and chemistry of the atmosphere Sources and sinks of climate gases Long-term changes of the atmosphere Monitoring of international protocols (Montreal and Paris agreements) Molecular physics and spectroscopic interaction between radiation and atmospheric trace compounds in the infrared, visible, and ultraviolet spectral range Optical remote sounding (inversion theory and instrument development, FTIR, Lidar) Satellite validation and synergetic combination of satellite and ground-based remote sounding

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https://sites.gc.sjtu.edu.cn/lpwang/ RESEARCH INTERESTS Turbulence: flow structure analysis, multi-scale analysis, turbulence physics Turbulent combustion: flame dynamics, flame-wall interaction, turbulent flame modeling Fluid mechanics related applications: CFD, heat transfer, drag reduction, flow instability and flow control etc.

Prof. Graham Matthews graduated at Imperial College, London as an entomologist in 1957. In 1958 I went to Southern Rhodesia (now Zimbabwe) and Nyasaland (now Malawi) to do research on control of insect pests of cotton crops. In 1967, I returned to Imperial College, but was seconded to Malawi in 1968 to follow up previous research there, which involved a study on ultra-low volume spraying of cotton, as farmers had difficulty obtaining enough water to spray with a knapsack sprayer. In 1972, I returned to Imperial College and remained at Silwood Park campus until I retired in 2001. In 1974 I obtained my PhD and later received a DSc. Over this period I did teaching, including special courses for overseas visitors and research on Pesticide Application and supervised students doing their Doctorate. The research unit was known as the International Pesticide Research Centre (IPARC). I also did tests of different sprayers for WHO in relation to controlling mosquitoes, and since retirement did some training courses for WHO. I visited numerous countries, including Brazil, China, Colombia, Egypt, Kenya, South Africa, Sudan, Tanzania, Turkmenistan and Uzbekistan, to advise on crop protection. Visits to certain countries, including Australia, Cameroon, Ethiopia, India, Malaysia, Nigeria, Pakistan and Zimbabwe were to participate in training courses on pesticide application. I have published several books between 1979 and 2022, notably Pesticide Application Methods, Pesticides, Health, Safety and the Environment, Pest Management, Cotton Pests and their Management, Integrated Vector Management, A History of Pesticides, and Pest Management in Cotton: A Global Perspective.

Professor M Moatamedi BSc MSc MBA LLM PhD CEng MASME FRAeS FNucI FIMechE. Professor Moatamedi is the President of The International Society of Multiphysics, as well as the Executive Director of New York University London. Prior to this, he was the President of Al Ghurair University led from his previous position as the Dean of the College of Engineering and Computing at the same institution where he successfully led the ABET accreditations for all college programmes. Previously at Imperial College, Narvik, Cranfield, Salford and Sheffield Universitates, he held senior managerial positions. During his stay at Imperial College, he was the Technical Manager for the Centre for Nuclear Engineering; in Narvik the Founding Director of High North Technology Centre; at Cranfield the Director of Motorsport Engineering and Management; and at Salford the Director of the Centre for Engineering Materials and the Director of Aerospace Engineering. He is the founder and the President of The International Society of Multiphysics (www.multiphysics.org), the Editor-in-Chief of ‘The International Journal of Multiphysics’ and the Chairman of the associated conferences. He is a Fellow of the Institution of Mechanical Engineering (IMechE), a Fellow of the Royal Aeronautical Society (RAeS), a Fellow of The Nuclear Institute (NI) and a Member of the American Society of Mechanical Engineers (ASME), and a Charted Engineer. He served as the Chairman of the Manchester Branch of the Royal Aeronautical Society and he has been a member of a number of national and international scientific committees, and advisor to some industrial and governmental bodies including the Office for Nuclear Regulations (ONR), in addition to being the lead person to devise the multiphysics competence standards for the European Union. He is currently a member of the Council and the Board of Directors of NAFEMS. He served as the Vice Chairman of the Association of Aerospace Universities, and member of the Board of Governors of European Nuclear Education Network and the Vice Chairman of NAFMES Multiphysics Working Group. He is also ABET Program Evaluator and has been a Visiting Professor, Scientist and Senior Research Fellow at a number of institutions including the Universities of Manchester (UK), Tongji (China), Oslo (Norway), Kumamoto (Japan), Strathclyde (UK), King Saud (Saudi Arabia), Chester (UK), Lille (France), as well as the Beijing Institute of Technology (China), and the Massachusetts Institute of Technology (USA).

Many years of experience in Research and Development, Automotive development, Project Management, Research and Development R&D and Management with focus on Urban Fully Electric Vehicle Development. My core competencies are technical leadership, team player; strategic thinking and planning ability; ability to identify new business opportunities in the field of Fully Electric Vehicle technology and development as well as create new services for end user. More than 180 reviewed papers. Large patent portfolio covering all aspects of urban mobility including: urban I-EVs, new I-bikes, UAM and Marine Systems with revolutionary propulsion systems.

Dr. Koen Bertels was a professor and head of the Quantum Computer Architecture Lab in the faculty of Electrical Engineering, Mathematics and Computer Science (TUDelft). In the last 10+ years, he was very focused on the architectural design of a quantum computer. Especially, in the TUDelft quantum research lab, QuTech. Now, he started a new company, called QBee.eu, that wants to help companies to develop a quantum-competent team of researchers. This no longer focused on quantum computing but thather at the quantum concepts we need to work on company and society relevant quantum solutions.

Honors 2000 - Russian Federation government's Award in the field of science and technology for creation of the RASCAN holographic radar technology and devices. International Collaborations Prof. Timothy D. Bechtel, Director of Science Outreach, Department of Earth & Environment, Franklin & Marshall College, Lancaster, PA 17603, USA, holographic subsurface radar and its applications in civil construction engineering, NDT of construction materials, mine detection and other fields. Prof. Lorenzo Capineri, Ultrasound Laboratory and Non Destructive Testing, Department of Information Engineering, University of Florence, Via S. Marta 3, 50139 , Firenze, Italy, holographic subsurface radar and its applications in civil construction engineering, NDT of construction materials, mine detection and other fields. Mr. Masaharu Inagaki, President of Walnut Ltd., 1-19-13 Saiwaicho, Tachikawa, Tokyo, 190-0002, Japan, holographic subsurface radar and its applications in civil construction engineering, NDT of construction materials, mine detection and other fields. Dr. Francesco Soldovieri, Senior Researcher, Institute for Electromagnetic Sensing of the Environment, National Research Council, Via Diocleziano 328, Napoli, Italy subsurface radar, remote diagnostics of human beings by radar. Dr. Craig Warren, Research Associate, The University of Edinburgh, United Kingdom subsurface radar. Dr. Lorenzo Crocco, Researcher, Institute for Electromagnetic Sensing of the Environment, National Research Council, Via Diocleziano 328, Napoli, Italy subsurface radar, remote diagnostics of human beings by radar. Binu Thomas, Researcher, Vikram Sarabhai Space Center, Indian Space Research Organization, Thiruvananthapuram, Kerala, 695 022, India NDT of construction materials by holographic radar.

Research Interests: dynamics of mechanical systems; theory of stochastic processes; theory of sensitivity; problems of diagnostics and reliability of mechanical and electronic systems.

Prof. Tokeer Ahmad is graduated from IIT Roorkee and Ph.D. from IIT Delhi. Presently, he is full Professor at Department of Chemistry, Jamia Millia Islamia, New Delhi since 2019. Prof. Ahmad has supervised 16 PhD’s, 88 postgraduates, 10 projects, published 228 research papers, one patent and three books with research citation of 9980, h-index of 60 and i10-index of 186. Prof. Ahmad is active reviewer of 206 journals, delivered 219 Invited talks, evaluated 70 external doctoral theses and presented 139 conference papers. Prof. Ahmad is the recipient of CRSI Bronze Medal, MRSI Medal, SMC Bronze Medal, ISCAS Medal, Inspired Teacher’s President of India Award, Springer Nature Editor of Distinction Award, DST-DFG award, IIT Delhi Alumni Faculty Award, Distinguished Scientist Award, Dr. S. S. Deshpande National Award, Maulana Abul Kalam Azad Excellence Award of Education, Teacher’s Excellence Award, Elected Member of National Academy of Sciences India and Fellow of Royal Society of Chemistry (FRSC), UK. Prof. Ahmad has been figured in World Top 2% Scientists for consecutive five years since 2020 in both coveted lists including career long by Stanford University, USA.

Dr. H.C. Yee is a senior NASA Ames Research Center scientist with a PhD in Nonlinear Dynamics, renowned for her work in developing high-resolution shock-capturing and high-order numerical algorithms for computational fluid dynamics (CFD) and magnetohydrodynamics (MHD). Her research, particularly her work on the "Dynamics of Numerics for Computational Physics," has advanced the reliability of nonlinear simulations, with recent contributions to high-order entropy-conserving methods for simulating stiff reacting flows and strong shock waves. Dr. Yee has published over 250 papers, received numerous NASA awards, and delivered over 200 keynote presentations globally, cementing her status as a leading expert in the field. Key Contributions Numerical Algorithms: Developed advanced algorithms, including high-resolution shock-capturing and low-dissipative high-order techniques, for simulating complex flows in gas dynamics and MHD. "Dynamics of Numerics for Computational Physics": Pioneered this field, significantly enhancing the trustworthiness and interpretability of complex nonlinear numerical simulations. High-Order Entropy-Conserving Methods: Advanced these methods in recent years to improve the simulation of stiff reacting flows and turbulence involving strong shock waves. Recognition and Influence Publications: Authored over 250 research papers with nearly 10,000 citations, demonstrating a significant impact on the field. Awards: Received prestigious accolades, including two NASA Space Act Awards and 18 NASA Technical Brief & Spotlight Awards. Global Speaker: Delivered more than 200 keynote lectures worldwide, sharing her expertise widely. Journal Contribution: Served as an Associate Editor for the journal Computers & Fluids. Expertise and Education Specialization: Her expertise lies in the dynamics of numerics for computational physics, particularly applied to gas dynamics and magnetohydrodynamics Education: Holds a PhD in Nonlinear Dynamics (Applied Mechanics) from the University of California, Berkeley.

Dr. Sadaf Bashir Khan serves as a Faculty/Senior Research Scientist in collaboration with SWUST, Tianjin University, and DGUT, where she leads research initiatives in the 3D printing of polymeric materials. Her work focuses on photosensitive resins and lunar regolith simulants, with applications in in-situ resource utilization, sustainable energy, and the creation of nanostructured functional materials for environmental science. She has been awarded High Talent Awards at the city and provincial levels in China, a testament to her exceptional skills and dedication. Previously, she held the position of Distinguished Researcher at the Institute for Advanced Studies (IAS), Shenzhen University, China (2019-2021). Dr. Khan received her Ph.D. in Material Science and Engineering from Tsinghua University, Beijing, China (2018), and has developed a strong technical foundation in thin film fabrication and nanoparticle synthesis through PVD techniques and chemical methodologies. Her research employs simulation and modeling to optimize the design of single-layer, bilayer, and multilayer coatings, alongside the synthesis of nanoparticles for photocatalytic and optoelectronic devices aimed at solar energy conversion and pollution control. Dr. Khan has disseminated her findings through numerous scholarly publications and patents, demonstrating her commitment to advancing scientific knowledge.

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