02662nam a22002537a 4500003000500000005001700005008004100022020001800063040002500081050002100106082002300127100003800150245008300188264006100271300004600332336002100378337002500399338002300424504005100447505031100498520153000809650002802339650004102367CSPC20260218143322.0260218s2023    njua     b    001 0 eng d  a9781119472193  aCSPCbengcCSPCerda04aQC670bK37 2023 04223a530.141bK146f1 aKarmakar, Nemai Chandra,eauthor.10aFields and waves in electromagnetic communications / cNemai Chandra Karmakar. 1aHoboken, New Jersey :bJohn Wiley and Sons, Inc.,c2023.  axvi, 544 pages :billustrations ;c26 cm.  2rdacontentatext  2rdamediaaunmediated  2rdacarrieravolume  aIncludes bibliographical references and index.0 aUniform plane wave -- Wave propagation in homogeneous, nondispersive lossy media -- Uniform plane wave dispersive media -- Wave propagation in dispersive media -- Reflection and transmission of uniform plane wave -- Oblique incidence of uniform plane wave -- Incidence of uniform plane wave in lossy media.  a"Electromagnetism (EM) is a highly abstract and complex subject that examines how exerting a force on charged particles is affected by the presence and motion of adjacent particles. The interdependence of the time varying electric and magnetic fields—one producing the other, and vice versa—has allowed researchers to consider them as a single coherent entity: the electromagnetic field. Under this umbrella, students can learn about numerous and varied topics, such as wireless propagation, satellite communications, microwave technology, EM techniques, antennas, and optics, among many others.
Fields and Waves in Electromagnetic Communications covers advanced topics in applied electromagnetics for the professional by offering a comprehensive textbook that covers the basics of EM to the most advanced topics such as the classical electron theory of matters, the mechanics model and macroscopic model. Specifically, the book provides a welcome all-in-one source on wireless and guided EM that deals in a wide range of subjects: transmission lines, impedance matching techniques, metallic waveguides, resonators, optical waveguides, optical fibres, antennas, antenna arrays, wireless systems, and electromagnetic compatibility (EMC), and more. The content is supported with innovative pedagogy, the most recent reports and working principles of relevant and contemporary technological developments including applications, specialist software tools, laboratory experiments, and innovative design projects"-- Back cover. 0aElectromagnetic fields. 0aElectromagnetic wavesxTransmission.