-Theory of electromagnetic fields (classical electrodynamics in engineering perspectives, including the relativistic theory).
-Teaching activity in the field of electromagnetics (at the faculties “VIK” and “GPK”), continuous development of the scope of the courses, and integration of the new scientific results in the education.
-Research in the field of development and implementation of numerical techniques (finite elements, finite differences (time domain), integral equations, finite integrals, ray tracing, etc.)
-Research in the field of inverse and optimization problems.
-Data-fit surrogate models (mesh-based, sparse grid, kriging), inversion, optimization, deterministic and stochastic approaches, sensitivity analysis (e.g., Sobol’ indices), machine learning, etc.
-Constitutive models, homogenization: magnetic materials, superconductors, artificial materials (frequency-selective surfaces, meta-materials).
-Research in the field of wave propagation and scattering problems.
-Participation in RDI projects in which the above competences can be applied:
-nondestructive testing and evaluation (NDT&E)
-wireless power transfer (WPT): capacitive and inductive (resonant) coupling
-integrated optics, optical fibers (microbending loss)
-superconducting coil design
-wave propagation and scattering: deterministic and stochastic models, micro-Doppler effect
-analysis and design of microwave devices: antennas, anechoic chamber, MRI RF coil
-radiating near field: SAR prediction, validation of computational methods,
-simulations related to driving assistant radars
-finite element calculation (element by element method) on CUDA card
-Modeling of capacitive and inductive wireless power transfer for device design and optimization
-Modeling of Litz-wires for accurate calculation of ohmic loss
-Application of sensitivity analysis based on Sobol’ indices for electromagnetic models
-Antenna near field modeling and development of methods for validation of numerical simulations thereof
-Automotive EMC measurements: numerical model development
-Robust semi-analytical formulation for the modeling of millimeter-wave scattering
-Modeling of spiral superconductor coil
Publications
N/A
Journals
•IEEE TRANSACTIONS ON MAGNETICS
•INTERNATIONAL JOURNAL OF APPLIED ELECTROMAGNETICS AND MECHANICS
•COMPEL-THE INTERNATIONAL JOURNAL FOR COMPUTATION AND MATHEMATICS IN ELECTRICAL AND ELECTRONIC ENGINEERING
•IET SCIENCE MEASUREMENT AND TECHNOLOGY
•EUROPEAN PHYSICAL JOURNAL-APPLIED PHYSICS
Projects
• Hungarian Academy of Sciences Energy Research Center
Institute of Technical Physics and Materials Science, Gábor Vértesy
• Furukawa Electric Institute of Technology Ltd., Gábor Varga
Industry relations
Bosch, Pro Patria Electronics, FETI
Conferences
• Hungarian Science Festival 2019: Uncertainty propagation and sensitivity analysis in electromagnetic modeling tasks - lecture
• BME Energy College: Wireless Energy Transmission - Lecture (2017)
Other activities
• Member of the Board: József Pávó, Board of the International Compumag Society (ICS)
• Editorial Board of the International Journal of Applied Electromagnetics and Mechanics: Sándor Bilicz and József Pávó
• Section Editor in several special issues: IEEE Transactions on Magnetics: Szabolcs Gyimóthy and József Pávó
• Scientific Committee for Electrical Engineering of the Hungarian Academy of Sciences: Sándor Bilicz, Szabolcs Gyimóthy, József Pávó - voting members
•International Workshop on Electromagnetic Nondestructive Evaluation (ENDE), 2022. június (a szervezés folyamatban van)