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| Numerical Analysis of Loss Power Properties in the Near-Field Electromagnetic Wave Through A Microstrip Line for Multilayer Magnetic Films with Different Levels of Electrical Conductivity |
| Journal of Magnetics, Volume 13, Number 3, 30 Sep 2008, Pages 92-96 |
Jung-Hwan Lee(Center for Energy Materials Research, Korea Institute of Science and Technology), Sang-Woo Kim*  (Center for Energy Materials Research, Korea Institute of Science and Technology) |
| Abstract |
| There are few reports of high frequency loss behavior in the near-field for magnetic films with semiconducting properties, even though semiconducting magnetic materials, such as soft magnetic amorphous alloys and nanocrystalline thin films, have been demonstrated. The electromagnetic loss behavior of multilayer magnetic films with semiconducting properties on the microstrip line in quasi-microwave frequency band was analyzed numerically using a commercial finite-element based electromagnetic solver. The large increase in the absorption performance and broadband characteristics of the semiconducting/insulating layer magnetic films examined in this study were attributed to an increase in the loss factor of resistive loss. The electromagnetic reflection increased significantly with increasing conductivity, and the loss power deteriorated significantly. The numerical results of the magnetic field distribution showed that a strong radiated signal on the microstrip line was emitted with increasing conductivity and decreasing film thickness due to re-reflection of the radiated wave from the surface of the magnetic film, even though the emitted levels varied with film thickness. |
| Keywords: conductivity; multilayer film; electromagnetic wave absorber; microstrip line |
| DOI: 10.4283/JMAG.2008.13.3.92 |
| Full Text: PDF |
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