IEEE CEFC 2024 (Conference on Electromagnetic Field Computation)

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The 21st Biennial IEEE Conference on Electromagnetic Field Computation (IEEE CEFC 2024) will be held in Jeju, Korea, June 2 – 5, 2024. This conference will be a full face-to-face one. IEEE CEFC is one of the most important scientific and technical events in computational electromagnetics and related fields. Its aim is to present the latest developments in modeling and simulation methodologies for the analysis of electromagnetic fields and wave interactions. Application emphasis is on computer-aided design of low and high frequency devices, components, and systems. Scientists and engineers worldwide are invited to submit original contributions in areas related to Static and Quasi-static Fields, Wave Propagation, Material Modeling, Coupled Problems, Numerical Techniques, Optimization and Design, Software Methodology, Nanomagnetics, Nanophotonics, Bioelectric Field Computation as well as Devices, Applications, and education.

Topic List: Papers are solicited in the following topics. 

1. Static and Quasi-static Fields Electrostatics, Magnetostatics, Eddy Currents, Numerical Methods, Others. 

2. Wave Propagation Scattering, Radiation, Time and Frequency Domain, Microwaves, Antennas, Numerical Methods, Radiative Transfer, Electromagnetic Compatibility, Others. 

3. Material Modeling Superconducting Materials, Composite Materials, Hysteresis and Anisotropy, Permanent Magnets, Magnetostrictive or Piezoelectric Materials, Microwave Absorbing Materials, Ab-initio Quantum Mechanical Modeling, Others. 

4. Coupled Problems: (Electromagnetic Field Problems Coupled to ...): Mechanical Problems, Electric Circuits, Thermal Problems, Micromagnetics, Others. 

5. Numerical Techniques Mesh Generation and Adaptive Meshing, Solving Linear Systems, Preconditioning, Eigenvalue Problems, Nonlinear Problems, Near Field Modeling, Parallel and Distributed Computing, GPU, Matrix Compression Technique, Model Order Reduction, Multiscale Modeling, Others. 

6. Optimization and Design Robust Optimization under Uncertainty, Stochastic and Hybrid Techniques, Multi-Objective and Multi-Level Optimization, Artificial Intelligence and Expert Systems, Inverse Problems, Sensitivity Analysis, Deterministic Methods, Neural Networks, Others. 

7. Software Methodology Software Design, Software Engineering and Software Quality, Computer Graphics and Data Representation, Human-Machine Interface, Computer Aided Engineering in Classroom, Others. 

8. Nanomagnetics Spintronics, MEMS/NEMS, Nanomagnetics Modeling, Magnetic Recording, MRAM, Ab-initio Magnetic Paranetics Calculating, Others. 

9. Nanophotonics Adaptive Optics, Optical Detectors, Electro-Optics, Near Field Modeling, Others. 

10. Bioelectromagnetic Fields Computation Numerical Approximation, Large Scale Computing, Geometric Modeling and Scientific Visualization (Human Body), Integrated Software Environments, Biomedical Signal Processing, Constrained Optimization, Others. 

11. Devices and Applications Electric Machines and Drives, Nondestructive Testing, Induction Heating, Power Electronics Devices, Wave Guides, Microwaves Resonators, Micro/Nanosystems, Biomedical Applications, Charged Particles Trajectories, Accelerators, Electromagnetic Launchers, Fusion Machines, Electromagnetic Compatibility, Magnetic Recording, Microsystems, Superconducting Applications, Others. 

12. Education