Basmacı, Ayşe Nihan2022-05-112022-05-1120201454-4164https://hdl.handle.net/20.500.11776/4554In this study, frequencies of electromagnetic wave propagation in a four-segmented waveguide are obtained theoretically. There is a tight bonding in the transition of the photonic waveguide segments and thus it is assumed that these segments include no discontinuities. Effects of magnetic material properties on the electromagnetic wave propagation frequencies are investigated. Electromagnetic wave propagation frequencies are obtained with Maxwell equations. Moreover, reflection and transmission energy coefficients that occur with the change of material properties have also been investigated. Changing the material properties of the segmented photonic waveguide, amplification and damping events can be observed to occur. © 2020 National Institute of Optoelectronics. All rights reserved.eninfo:eu-repo/semantics/closedAccessElectromagnetic wave propagationMaxwell equationsMultisegmented wiresPhotonic waveguidesCircular waveguidesElectromagnetic wave propagationMagnetic materialsMaxwell equationsPhotonic waveguidesReflection and transmissionSegmented waveguidesOptical waveguidesArticle2245574452460Q4WOS:0006011646000022-s2.0-85096907325Q4