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Compact Slot Array Antennas for Wireless Communications [electronic resource] / by Alan J. Sangster.

By: Sangster, Alan J [author.].
Contributor(s): SpringerLink (Online service).
Material type: materialTypeLabelBookSeries: Signals and Communication Technology: Publisher: Cham : Springer International Publishing : Imprint: Springer, 2019Edition: 1st ed. 2019.Description: XXXI, 350 p. online resource.Content type: text Media type: computer Carrier type: online resourceISBN: 9783030017538.Subject(s): Wireless communication systems | Mobile communication systems | Electrodynamics | Telecommunication | Metals | Magnetism | Wireless and Mobile Communication | Classical Electrodynamics | Microwaves, RF Engineering and Optical Communications | Metals and Alloys | MagnetismAdditional physical formats: Printed edition:: No title; Printed edition:: No titleDDC classification: 621.384 Online resources: Click here to access online
Contents:
Evolution of Compact Slot Antennas -- Fundamentals of Electomagnetic Radiation -- Compact Aperture Antennas -- Computational Modelling Techniques for Slot Antennas -- Moment Method Models of Compact Slot Antennas -- Resonant and Non-resonant Linear Slot Arrays -- Conventional Waveguide Fed Travelling-wave Slot Arrays -- Frequency Scanned and Leaky-wave Linear Slot Arrays -- Compact Planar Reflectarrays -- Compact Planar Resonator Arrays -- Retrodirective Compact Array Antennas.
In: Springer Nature eBookSummary: This book describes and provides design guidelines for antennas that achieve compactness by using the slot radiator as the fundamental building block within a periodic array, rather than a phased array. It provides the basic electromagnetic tools required to design and analyse these novel antennas, with sample calculations where relevant. The book presents a focused introduction and valuable insights into the relevant antenna technology, together with an overview of the main directions in the evolving technology of compact planar arrays. While the book discusses the historical evolution of compact array antennas, its main focus is on summarising the extensive body of literature on compact antennas. With regard to the now ubiquitous slot radiator, it seeks to demonstrate how, despite significant antenna size reductions that at times even seem to defy the laws of physics, desirable radiation pattern properties can be preserved. This is supported by an examination of recent advances in frequency selective surfaces and in metamaterials, which can, if handled correctly, be used to facilitate physics-defying designs. The book offers a valuable source of information for communication systems and antenna design engineers, especially thanks to its overview of trends in compact planar arrays, yet will also be of interest to students and researchers, as it provides a focused introduction and insights into this highly relevant antenna technology.
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Evolution of Compact Slot Antennas -- Fundamentals of Electomagnetic Radiation -- Compact Aperture Antennas -- Computational Modelling Techniques for Slot Antennas -- Moment Method Models of Compact Slot Antennas -- Resonant and Non-resonant Linear Slot Arrays -- Conventional Waveguide Fed Travelling-wave Slot Arrays -- Frequency Scanned and Leaky-wave Linear Slot Arrays -- Compact Planar Reflectarrays -- Compact Planar Resonator Arrays -- Retrodirective Compact Array Antennas.

This book describes and provides design guidelines for antennas that achieve compactness by using the slot radiator as the fundamental building block within a periodic array, rather than a phased array. It provides the basic electromagnetic tools required to design and analyse these novel antennas, with sample calculations where relevant. The book presents a focused introduction and valuable insights into the relevant antenna technology, together with an overview of the main directions in the evolving technology of compact planar arrays. While the book discusses the historical evolution of compact array antennas, its main focus is on summarising the extensive body of literature on compact antennas. With regard to the now ubiquitous slot radiator, it seeks to demonstrate how, despite significant antenna size reductions that at times even seem to defy the laws of physics, desirable radiation pattern properties can be preserved. This is supported by an examination of recent advances in frequency selective surfaces and in metamaterials, which can, if handled correctly, be used to facilitate physics-defying designs. The book offers a valuable source of information for communication systems and antenna design engineers, especially thanks to its overview of trends in compact planar arrays, yet will also be of interest to students and researchers, as it provides a focused introduction and insights into this highly relevant antenna technology.

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