Yichao Wang | Engineering | Best Researcher Award

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Assoc. Prof. Dr Yichao Wang | Engineering | Best Researcher Award

Associate Professor, Shenyang City University, China

Dr. Yichao Wang is an accomplished researcher whose work bridges the gap between theoretical innovation and practical engineering application. His contributions to CAD and civil infrastructure — through integration of BIM/CIM, AI, and blockchain — have directly advanced smart city initiatives and underground safety. The breadth of awards, project leadership, and publication in indexed journals positions him as a top contender for the Best Researcher Award.

Profile
  • Orcid
  • Google scholar
📚Publication 

🏁conclusion:

Dr. Wang embodies the values of impactful, forward-thinking research in the field of CAD for civil and mechanical engineering. Continued engagement with the global academic community and expansion into editorial and authorship roles would further enhance his academic influence.

Daniele Iannarelli | Ingegneria aerospaziale | Best Researcher Award

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Mr Daniele Iannarelli | Ingegneria aerospaziale | Best Researcher Award

Dottorando,La Sapienza University of Rome, Italy

Daniele Iannarelli is a passionate and driven researcher with notable strengths in innovation, collaboration, and the impact of his published work. His dedication to advancing knowledge is evident in the contributions he has made to his field, and his academic excellence positions him well for future successes.

Publication Profile
scopus

Education :

High School Diploma
Institution: Liceo Scientifico Giovan Battista Grassi, Latina (LT), Italy
Period: 02/09/2007 – 09/06/2012
Final Grade: 100/100
A solid foundation in scientific studies, culminating in a top score in high school.,Bachelor’s Degree in Aerospace Engineering
Institution: La Sapienza University of Rome
Period: 09/10/2012 – 02/11/2015
Final Grade: 90/110
Gained in-depth knowledge in core aerospace engineering subjects such as thermodynamics, rational mechanics, and aerospace propulsion.,Master’s Degree in Space and Astronautical Engineering
Institution: La Sapienza University of Rome
Period: 02/10/2015 – 20/01/2019
Final Grade: 108/110
Focused on launcher flight mechanics, spacecraft design, and space robotic systems, with a particular emphasis on space propulsion.,Second-Level Master’s Course in Space Transportation Systems: Launchers and Re-entry Vehicles
Institution: La Sapienza University of Rome
Period: 06/01/2019 – 30/12/2019
Final Grade: 109/110
Enhanced expertise in space systems, including rocket nozzles, aerothermodynamics, and the design of launchers and re-entry vehicles.,PhD
Institution: Friedrich-Alexander-Universität (FAU), Nuremberg, Germany
Period: 14/03/2020 – 30/08/2020
Research Project: Optical measurement for fuel mixing in constant volume chambers; dual-fuel technology for heavy-duty engines.,Special Master of Aerospace Engineering
Institution: Scuola di Ingegneria Aerospaziale, La Sapienza University of Rome
Period: 27/09/2020 – 17/12/2021
Final Grade: 107/110
Focused on hybrid propulsion, advanced control of space vehicles, and design of electronic systems for space.,PhD (Current)
Institution: Scuola di Ingegneria Aerospaziale, La Sapienza University of Rome
Period: 10/01/2022 – Present
Research Project: Plasma thrusters design for sustainable space transportation.

Research Focus:

Institution: Scuola di Ingegneria Aerospaziale, La Sapienza University of Rome
Period: 15/01/2025 – Present
Engaged in cutting-edge research in aerospace engineering, particularly related to plasma thrusters and space propulsion technologies.

Skills:

  • Programming Languages: Matlab, Simulink
  • Software: CFD simulations and fluid dynamics visualization, Windows Office, LaTeX for document writing
  • Languages:Italian: Native,English: B1-B2,German: A1

Publication :

  • Iannarelli, D., et al. (2022). Plasma thruster design through a predictive model of the Proto-sphera experiment arc state. Poster presented at the Symposium SYNC 2022.
  • Iannarelli, D., et al. (2022). A new indirect measurement method of the electron temperature for the Proto-sphera’s pinch plasma. Poster presented at the 6th International Conference on Frontiers in Dusty Plasmas (ICFDT) and publication in the Journal of Instrumentation (JINST).
  • Iannarelli, D., et al. (2022). New space plasma propulsion activities in ENEA C.R. Frascati. Poster presented at the ASI workshop.
  • Iannarelli, D., et al. (2022). Full helicon thruster modeling. Proceedings of the 38th International Electric Propulsion Conference (IEPC).
  • Iannarelli, D., et al. (2022). A rational design method for the Nagoya type-III antenna. Aerospace Journal.

conclusion:

Daniele’s research contributions make him a standout candidate for the Best Researcher Award. With minor improvements in time management, broader outreach, and leadership, he has the potential to further elevate his work and make an even more significant impact. His strengths in research innovation and collaboration make him deserving of recognition, and with continued growth, he will undoubtedly continue to contribute greatly to his field.

Chang Hyun Sohn | Fluid mechanics | Best Researcher Award

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 Prof. Chang Hyun-Sohn | Fluid mechanics|Best Researcher Award

 Prof.  Chang Hyun Sohn Kyungpook National University,South Korea.

 

Prof. Chang Hyun Sohn is a distinguished professor at Kyungpook National University, South Korea, specializing in medical research and healthcare advancements. His expertise spans various fields of medicine, including clinical studies, biomedical innovations, and public health initiatives. With numerous publications in high-impact medical journals, Prof. Sohn has significantly contributed to advancing medical science. His research focuses on improving patient care, disease treatment strategies, and medical technology development. He has received several prestigious awards and grants in recognition of his contributions to healthcare and medical education.

Publication Profile

Scopus

Google scholar

Orcid

Education :

Dr. Chang-Hyun Sohn earned his Ph.D. in Mechanical Engineering from KAIST, South Korea, in 1991, following his Master’s (1985) and Bachelor’s (1983) degrees in the same field from KAIST and Kyungpook National University, respectively. His academic journey laid a strong foundation for his expertise in thermal-fluid engineering and computational fluid dynamics (CFD).

Experience :

With a distinguished academic and professional career spanning over three decades, Dr. Sohn has been a Professor at Kyungpook National University since 1994. His prior experience includes serving as Team Manager at the Agency for Defense Development (ADD), where he contributed to small jet engine development (1991-1994). He has held visiting professor positions at the University of Cambridge, UK (1996-1997), and the University of Tennessee, Knoxville, USA (2005-2006). Additionally, he has held leadership roles such as Vice Dean of the College of Engineering, Director of Industrial-University Consortium Center, and President of the Faculty Assembly at Kyungpook National University.

Research Focus :

Dr. Sohn’s research interests lie in Computational Fluid Dynamics (CFD) analysis of thermal-fluid flow phenomena, Particle Image Velocimetry (PIV) measurement of thermal-fluid flow, and Flow-Induced Vibration. His work has significantly contributed to advancing fluid mechanics, aerodynamics, and heat transfer applications.

Awards:

Dr. Sohn has received several prestigious awards for his research and academic contributions, including:

Outstanding Paper Award – Korean Society for Computational Fluid Engineering (2010)Best Paper Award – Korean Society of Mechanical Engineers (2010)Invited Speaker – International Conferences (IBCAST 2016, FMFP 2017)Advisor of Winning Team – National Fluid Engineering Competition for University Students (2010)

Publication :

Understanding wetting behavior in electrode–electrolyte interface formation and its sensitivity to electrode-current collector interaction: a lattice Boltzmann method approach
 Conclusion

Given his significant research impact, international recognition, and contributions to both academia and industry, Dr. Sohn is a strong contender for the Best Researcher Award. Strengthening his portfolio with more recent recognitions and interdisciplinary collaborations would further enhance his profile.

 

 

Vyacheslav Klyukhin | Magnetostatics| Best Researcher Award

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Dr.VyacheslavKlyukhin|Magnetostatis| Best Researcher Award

Dr Vyacheslav Klyukhin CERN, Switzerland.

Dr. Vyacheslav Klyukhin is a Senior Scientific Researcher at the Skobeltsyn Institute for Nuclear Physics, Moscow State University, and a key member of the CMS experiment at CERN, Switzerland. With over 50 years of experience in experimental physics, he has made significant contributions to the modeling and measurement of magnetic fields, particularly for the world’s largest superconducting solenoid used in the CMS detector. His expertise in 3D modeling and field measurements has been integral to the precise simulation and reconstruction of particle physics events. Dr. Klyukhin has published over 1300 scientific papers and is renowned for his work in magnetic systems for high-energy physics experiments.

Publication Profile

Google Scholar

Education :

Dr. Vyacheslav Klyukhin has over 50 years of experience in experimental physics and computing. He has made significant contributions to numerous scientific endeavors, especially within the realm of particle physics and magnetic field measurement. His work has largely been within the CERN, Dubna (Russia), and Moscow State University systems, but has also extended to international collaborations such as Fermilab, CEA/Saclay, and several other prestigious institutions.

Experience :

Senior Scientific Researcher at Skobeltsyn Institute for Nuclear Physics (Moscow State University, Russia) (since August 10, 2002): Dr. Klyukhin has worked extensively on the CMS experiment at CERN, specifically focusing on modeling and measuring magnetic fields for the CMS magnet and the world’s largest superconducting solenoid.Project Associate, CERN (from November 1, 2002 to October 31, 2007): He was part of the CMS experiment, contributing to the development of the TOSCA 3D model of the CMS magnet and performing field measurements within the superconducting coil.Guest Scientist at Fermilab (1999-2002): He contributed to the design and R&D for the CMS magnetic system, providing important software tools for field simulations and measurements.Senior Scientific Researcher at the Institute for High Energy Physics (IHEP), Protvino, Moscow, Russia (1974-2000): Dr. Klyukhin began his career here, working on particle physics experiments and the design of magnetic systems.

Research Focus :

Dr. Klyukhin’s primary research focus is on the development and refinement of magnetic field models for particle detectors, particularly in the context of large-scale superconducting solenoids. His work on the CMS experiment has led to the creation of highly accurate models for the magnetic field, used to support event reconstruction and precision measurements in high-energy particle physics. His contributions are pivotal to understanding and monitoring the magnetic field behavior in particle detectors, essential for experiments like those conducted at CERN.

CMS Magnet Modeling and Simulation: Dr. Klyukhin developed the CMS magnet TOSCA model, which matches measured magnetic field data with precision, ensuring the reliability of particle momentum measurements for Higgs boson decays.Magnetic Field Measurement: He has conducted extensive magnetic field mapping, including 33,840 measurement points within the CMS magnet, using cutting-edge technologies such as 3D Hall probes.Development of Field Mapping Systems: Dr. Klyukhin was instrumental in creating the CMS fieldmapping machine and the flux loop measurement systems used in monitoring the CMS magnet.

Awards:

Dr. Vyacheslav Klyukhin has been recognized for his outstanding contributions to experimental physics, particularly in the area of particle detector technology and magnetic field measurements. His work has earned him a Hirsch index of 100 in the Web of Science system, underscoring his substantial impact on the field through his publications.

Additionally, his participation in groundbreaking experiments such as the CMS and D0 projects, and his leadership in magnetic field modeling and measurement at CERN, has made him a key figure in the scientific community.

Skills:

3D Modeling & Simulation: Dr. Klyukhin has extensive experience using TOSCA to model complex magnetic systems, specifically for CMS at CERN, and has also created simulation tools for other particle detectors such as D0.Magnetic Field Measurement: He has developed and used systems to measure magnetic flux density using Hall probes, NMR probes, and flux loops with an impressive precision.Superconducting Magnet Systems: Dr. Klyukhin’s work involves a deep understanding of superconducting solenoids and their application in experimental setups such as the CMS experiment.Scientific Computing: Extensive background in computational physics, especially in the field of particle detector simulations and event reconstruction.

Publication :

Dr. Klyukhin has published more than 1325 scientific papers in refereed journals, reflecting his longstanding commitment to advancing the field of experimental particle physics. His research spans various topics within detector systems, magnetic field modeling, and event reconstruction, with significant contributions to the understanding of the CMS magnetic system and its applications in high-energy physics experiments.

Observation of a new boson at a mass of 125 GeV with the CMS experiment at the LHC

The CMS experiment at the CERN LHC

Conclusion

Dr. Vyacheslav Klyukhin is a distinguished researcher and scientist with a career spanning over five decades in experimental physics. His work in the field of magnetic systems for particle detectors, particularly in relation to the CMS experiment at CERN, has made substantial contributions to the understanding of magnetic fields in high-energy physics. His expertise in computational modeling, field measurement systems, and his leadership in international research projects have established him as a key figure in his field.