• Shielding effectiveness as a central Electromagnetic Compatibility (EMC) theme encompasses measurement techniques, material testing, and time-harmonic analyses to quantify shielding performance in enclosures and circuits, underpinned by dual TEM-cell methods and material characterization [1], [2], [6], [10], [11], [14].

• Health-focused Electromagnetic Compatibility (EMC) research maps occupational exposures and cellular responses to electromagnetic fields, highlighting brain-tumor associations, mortality, lymphoid cell effects, and dosimetric tissue models to assess risk [4], [5], [7], [12], [17], [18].

• Fundamental Electromagnetic Compatibility (EMC) theory and wave phenomena underpin design, with core theories of waves, surface modes, and metamaterial concepts guiding practical analyses and engineering applications [9], [13], [15], [16], [20].

• Biomedical engineering applications translate Electromagnetic Compatibility (EMC) principles into therapy and tissue-heating modalities, demonstrating focused electromagnetic interactions for clinical use [12], [19].