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Electromagnetic Band Gap Structures in Antenna Engineering Fan Yang, Yahya Rahmat-Samii
Publisher: Cambridge University Press

Scattering, Diffraction, and RCS C13. Electromagnetic Bandgap Structure, Wideband switching, High speed circuits, Power distribution system, Noise mitigation, Switching noise, Signal integrity. Education: 1980 at age 20 – B.S. Communications, antennas for remote sensing and astronomical applications, human/antenna interactions, frequency selective surfaces, electromagnetic and photonic band gap structures and the applications of the genetic algorithms and particle swarm optimization, etc. Inverse Problems and Imaging C12. For the design used non-optimal in terms of size reduction), artificial dielectric substrate structure reduces the filter length by 33%, the area of the coupler by 42% and the surface of the antenna by 24.5%. Shielding, Filtering & Grounding E15. Metamaterials and Electromagnetic Bandgap Structures C14. For contributions to modernizing and internationalizing engineering education. To increase bandwidth and decrease loss, the antenna liners needed to have repetitive structure considerably smaller than the wavelengths the antenna is designed to transmit. This comprehensive, applications-oriented survey of the state-of-the art in Electromagnetic Band Gap (EBG) engineering explains the theory, analysis, and design of EBG structures. For application of metamaterials and electromagnetic band gap structures to antenna systems. In in Electrical Engineering from the University of Illinois, Urbana-Champaign. Packed with hands-on guidance from noted experts, this volume will be indispensable to all engineers involved in designing, testing, and improving body-centric communication systems. Nano- EMC in Power Engineering E12. In Electrical Engineering – University of Tehran, Iran.