Research on Electromagnetic aims to provide a comprehensive platform for the dissemination of high-quality research and advancements in the field of electromagnetism. Our goal is to foster a deeper understanding of electromagnetic theory, applications, and technologies through the publication of innovative research, reviews, and case studies. The journal seeks to bridge the gap between fundamental electromagnetic principles and their practical implementations, promoting scientific and technological advancements in both academia and industry.

Scope:

The Journal of Research on Electromagnetic covers a broad range of topics within the field of electromagnetism, including but not limited to:

1. 1. Theoretical Electromagnetism:

      • Mathematical formulations and derivations of Maxwell's equations.
      • Advanced theories and models of electromagnetic fields.
      • Novel approaches to solving complex electromagnetic problems.

   2. Electromagnetic Waves:

      • Propagation, interaction, and characterization of electromagnetic waves.
      • Waveguides, antennas, and resonators.
      • Metamaterials and engineered electromagnetic structures.

   3. Electromagnetic Materials:

      • Dielectrics, conductors, and magnetic materials.
      • Material responses to electromagnetic fields.
      • Development and characterization of new electromagnetic materials.

   4. Applied Electromagnetics:

      • Electromagnetic compatibility and interference.
      • Design and analysis of communication systems.
      • Remote sensing, imaging techniques, and radar technologies.

   5. Computational Electromagnetics:

      • Numerical methods and simulations for electromagnetic problems.
      • Computational techniques in electromagnetic field analysis.
      • Software tools and algorithms for electromagnetic modeling.

   6. Experimental Electromagnetics:

      • Laboratory techniques for measuring electromagnetic fields.
      • Experimental validation of theoretical models and simulations.
      • Development and testing of new electromagnetic devices.

   7. Emerging Technologies:

      • Advances in terahertz and optical electromagnetic technologies.
      • Quantum electromagnetics and applications in quantum computing.
      • Innovations in electromagnetic-based health and safety applications.

   8. Interdisciplinary Applications:

      • Integration of electromagnetism with other scientific disciplines, such as materials science, nanotechnology, and biological systems.
      • Electromagnetic applications in emerging fields such as smart materials and wearable technology.