This finding underscores the complexity of electromagnetic wave propagation and its dependence on geographical and seasonal factors. Schumann Resonance (SR): Electromagnetic waves that resonate in ...

Introduction to electromagnetic waves in electrical engineering. Topics include: concepts of transmission lines, electrostatics and magnetostatics; Maxwell's equations for time-varying fields; ...

Finite Difference Time Domain (FDTD): A numerical method used to solve differential equations that describe electromagnetic fields, particularly useful in modeling wave propagation. Orography ...

NASA's MMS mission discovered whistler-mode chorus waves in an unexpected region, the terrestrial mid-tail neutral sheet, ...

"This concept of loss-compensated non-reciprocal wave propagation is ... be applied to metamaterials for electromagnetic waves. In this way, microwaves in radar systems could be guided better ...

As the demand for high-speed wireless communication grows, millimeter-wave frequencies, such as the 27 GHz band, have become increasingly important for 5G and beyond. However, operating at these ...

They produced an ultra-thin polymer composite film and incorporated conductive patterns on the film's back side to control the propagation of electromagnetic waves. By adjusting the shape of the ...

Ansys noted that its AVxcelerate Sensors simulation software with strengthen the ADPH platform with radar and electromagnetic wave propagation simulation capabilities. When connected to a virtual ...