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Plasma Antennas 1st Edition by Theodore Anderson ISBN 160807143X 9781608071432

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Plasma Antennas 1st Edition Theodore Anderson Digital Instant Download

Author(s): Theodore Anderson
ISBN(s): 9781608071432, 160807143X
Edition: 1
File Details: PDF, 4.00 MB
Year: 2011
Language: english
SKU: EB-2431446 Category: Tag:

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ISBN 10: 160807143X 
ISBN 13: 9781608071432
Author: Theodore Anderson

The plasma antenna is an emerging technology that partially or fully utilizes ionized gas as the conducting medium instead of metal to create an antenna. The key advantages of plasma antennas are that they are highly reconfigurable and can be turned on and off. The disadvantage is that the plasma antennas require energy to be ionized. This unique resource provides you with a solid understanding of the efficient design and prototype development of plasma antennas, helping you to meet the challenge of reducing the power required to ionize the gas at various plasma densities. You also find thorough coverage of the technical underpinnings of plasma antennas, as well as important discussions on current markets and applications. Additionally, the book presents experimental work in the this cutting-edge area and reveals the latest developments in the field. This in-depth reference is supported with over 70 illustrations and more than 110 equations.

Plasma Antennas 1st Table of contents:

1. Introduction
References

2. Plasma Physics for Plasma Antennas
2.1 Mathematical Models of Plasma Physics
2.2 Man-Made Plasmas and Some Applications
2.3 Basic Physics of Reflection and Transmission from a Plasma Slab Barrier
2.4 Experiments of Scattering Off of a Plasma Cylinder
2.5 Governing Plasma Fluid Equations for Applications to Plasma Antennas
2.6 Incident Signal on a Cylindrical Plasma
2.7 Fourier Expansion of the Plasma Antenna Current Density
2.8 Plasma Antenna Poynting Vector
2.9 Some Finite Element Solution Techniques for Plasma Antennas
 2.9.1 Barrier Penetration
 2.9.2 Calculation of Scaling Function
References

3. Fundamental Plasma Antenna Theory
3.1 Net Radiated Power from a Center-Fed Dipole Plasma Antenna
3.2 Reconfigurable Impedance of a Plasma Antenna
3.3 Thermal Noise in Plasma Antennas
References

4. Building a Basic Plasma Antenna
4.1 Introduction
4.2 Electrical Safety Warning
4.3 Building a Basic Plasma Antenna: Design I
4.4 Building a Basic Plasma Antenna: Design II
4.5 Materials
4.6 Building a Basic Plasma Antenna: Design III

5. Plasma Antenna Nesting, Stacking Plasma Antenna Arrays, and Reduction of Cosite Interference
5.1 Introduction
5.2 Physics of Reflection and Transmission of Electromagnetic Waves Through Plasma
5.3 Nested Plasma Antenna Concept
 5.3.1 Example of Nested Plasma Antennas
 5.3.2 Schematic Conceptual Design of Stacked Plasma Antenna Arrays
5.4 Cosite Interference Reduction Using Plasma Antennas
5.5 Plasma Antenna Nesting Experiments
References

6. Plasma Antenna Windowing: Foundation of the Smart Plasma Antenna Design
6.2 The Smart Plasma Antenna Design: The Windowing Concept
 6.2.1 Multiband Plasma Antennas Concept
 6.2.2 Multiband and Multilobe or Both Plasma Antennas Concept
6.3 Theoretical Analysis with Numerical Results of Plasma Windows
 6.3.1 Geometric Construction
 6.3.2 Electromagnetic Boundary Value Problem
 6.3.3 Partial Wave Expansion: Addition Theorem for Hankel Functions
 6.3.4 Setting Up the Matrix Problem
 6.3.5 Exact Solution for the Scattered Fields
 6.3.6 Far-Field Radiation Pattern
 6.3.7 Eight-Lobe Radiation Patterns for the Plasma Antenna Windowing Device
 6.3.8 Dissipation in the Plasma Window Structure: Energy Conservation in an Open Resonant Cavity
References

7. Smart Plasma Antennas
7.1 Introduction
7.2 Smart Antennas
7.3 Early Design and Experimental Work for the Smart Plasma Antenna
7.4 Microcontroller for the Smart Plasma Antenna
7.5 Commercial Smart Plasma Antenna Prototype
7.6 Reconfigurable Bandwidth of the Smart Plasma Antenna
7.7 Effect of Polarization on Plasma Tubes in the Smart Plasma Antenna
7.8 Generation of Dense Plasmas at Low Average Power Input by Power Pulsing: An Energy-Efficient Technique
7.9 Fabry-Perot Resonator for Faster Operation of the Smart Plasma Antenna
 7.9.1 Mathematical Model for a Plasma Fabry-Perot Cavity
 7.9.2 Slab Plasma
 7.9.3 Cylindrical Plasma
7.10 Speculative Applications of the Smart Plasma Antenna in Wireless Technologies
 7.10.1 Introduction
 7.10.2 GPS-Aided and GPS-Free Positioning
 7.10.3 Multihop Meshed Wireless Distribution Network Architecture
 7.10.4 Reconfigurable Beamwidth and Lobe Number
 7.10.5 Adaptive Directionality
 7.10.6 Cell Tower Setting
References

8. Plasma Frequency Selective Surfaces
8.1 Introduction
8.2 Theoretical Calculations and Numerical Results
 8.2.1 Method of Calculation
 8.2.2 Scattering from a Partially Conducting Cylinder
8.3 Results
 8.3.1 Switchable Bandstop Filter
 8.3.2 Switchable Reflector
References

9. Experimental Work
9.1 Introduction
9.2 Fundamental Plasma Antenna Experiments
9.3 Suppressing or Eliminating EMI Noise Created by the Spark-Gap Technique
9.4 Conclusions on the Plasma Reflector Antenna
9.5 Plasma Waveguides
9.6 Plasma Frequency Selective Surfaces
9.7 Pulsing Technique
9.8 Plasma Antenna Nesting Experiment
9.9 High-Power Plasma Antennas
 9.9.1 Introduction
 9.9.2 The High-Power Problem
 9.9.3 The High-Power Solution
 9.9.4 Experimental Confirmation
 9.9.5 Conclusions on High-Power Plasma Antennas
9.10 Basic Plasma Density and Plasma Frequency Measurements
9.11 Plasma Density Plasma Frequency Measurements with a Microwave Interferometer and Preionization
 9.11.1 Experiments on the Reflection in the S-Band Waveguide at 3.0 GHz with High Purity Argon Plasma
9.12 Ruggedization and Mechanical Robustness of Plasma Antennas
 9.12.1 Embedded Plasma Antenna in Sandstone Slurry
 9.12.2 Embedded Plasma Antenna in SynFoam
9.13 Miniaturization of Plasma Antennas
References

10. Directional and Electronically Steerable Plasma Antenna Systems by Reconfigurable Multipole Expansion
10.1 Introduction
10.2 Multipole Plasma Antenna Designs and Far Fields
References

11. Satellite Plasma Antenna Concepts
11.1 Introduction
11.2 Data Rates
11.3 Satellite Plasma Antenna Concepts and Designs
References

12. Plasma Antenna Thermal Noise
12.1 Introduction
12.2 Modified Nyquist Theorem and Thermal Noise

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Tags: Theodore Anderson, Plasma Antennas