Cruickshank D.B. Microwave materials for wireless applications. - Boston; London: Artech House, 2011. - xxii, 221 p.: ill. - (Artech House microwave library). - Incl. bibl. ref. - Ind.: p.213-221. - ISBN 978-1-60807-092-3  Место хранения:   026 | Институт физики полупроводников СО РАН | Новосибирск | Библиотека

Оглавление / Contents

Preface .................................................... xv Aknowledges .............................................. xvii Introduction ............................................... xix 1 Garnets ...................................................... 1 1.1 Introduction ............................................ 1 1.2 Garnet Structure and Chemistry .......................... 3 1.3 Magnetism and Ferrimagnetism ............................ 5 1.4 Magnetic Ions Behaving Badly ............................ 6 1.5 Lanthanides and Dodecahedral Substitution ............... 7 1.6 Octahedral Substitution ................................ 11 1.6.1 Nonmagnetic Octahedral Substitution ............. 11 1.6.2 Manganese (Mn) Substitution ..................... 13 1.6.3 Cobalt (Co) Substitution ........................ 14 1.7 Tetrahedral Substitution ............................... 14 1.7.1 Aluminum (Al) ................................... 14 1.7.2 Gallium (Ga) .................................... 16 1.7.3 Vanadium (V) .................................... 16 1.8 Mixed Systems .......................................... 17 1.8.1 Low Firing Temperature Garnets .................. 18 1.9 Rare Earth Substitution ................................ 18 1.10 Summary ................................................ 19 References .................................................. 20 Selected Bibliography ....................................... 21 2 Spinels ..................................................... 23 2.1 Introduction ........................................... 23 2.2 Nickel Spinels ......................................... 25 2.2.1 Overview of Nickel Spinel Applications .......... 26 2.2.2 Nickel Ferrites Above 10 GHz .................... 31 2.3 Magnesium Spinels ...................................... 32 2.4 Lithium Ferrite ........................................ 33 2.5 Summary ................................................ 36 References .................................................. 36 Selected Bibliography ....................................... 37 3 Absorbers ................................................... 39 3.1 Introduction ........................................... 39 3.2 Ni and NiZn Ferrite Absorbers .......................... 40 3.3 Water as an Absorber ................................... 44 3.4 Barium Titanate Piezoelectrics ......................... 46 3.5 Silicon Carbide Absorbers .............................. 48 3.6 Magnetic Metal Polymer Composite Materials ............. 49 3.7 Hexagonal Ferrite Absorbers ............................ 53 3.8 Summary ................................................ 53 References .................................................. 53 4 Plastics and Plastic Ceramic Composite Materials ............ 57 4.1 Introduction ........................................... 57 4.2 Plastics and Hydrocarbon Polymers ...................... 58 4.2.1 Hydrocarbon-Based Polymers ...................... 58 4.2.2 Hydrocarbons with Aromatic Side Chains .......... 59 4.3 Fluorocarbon-Based Polymers ............................ 61 4.4 Structural Thermoplastics .............................. 64 4.5 Epoxies ................................................ 65 4.6 Silicones .............................................. 67 4.7 Polyurethanes .......................................... 70 4.8 Filled Polymers ........................................ 70 4.8.1 Types of Fillers ................................ 70 4.8.2 Filled Polyolefins .............................. 73 4.8.3 Filled Fluorocarbons ............................ 73 4.8.4 Filled High-Temperature Polymers ................ 74 4.8.5 Filled Epoxies for Laminates .................... 74 4.9 Summary ................................................ 75 References .................................................. 75 5 Low Dielectric Constant Ceramic Dielectrics ................. 77 5.1 Introduction to Ceramic Dielectrics .................... 77 5.2 Measurement ............................................ 78 5.3 Applications ........................................... 78 5.4 Silica and Silicates ................................... 80 5.4.1 The Range of Si-O-Based Dielectric Materials by Using Silicates .............................. 81 5.5 High-Temperature and High-Conductivity Materials ....... 83 5.5.1 Nitrides, Oxides, and Fluorides ................. 83 5.5.2 Alumina (Аl2О3) ................................. 84 5.5.3 Boron Nitride (BN) .............................. 85 5.5.4 Beryllium Oxide (BeO) ........................... 86 5.5.5 Aluminum Nitride (AlN) .......................... 86 5.5.6 Diamond ......................................... 87 5.6 Dielectrics for Thick Film and Low Temperature Cofired Ceramic (LTCC) Applications .................... 87 5.7 Summary ................................................ 89 References .................................................. 89 Selected Bibliography ....................................... 90 6 High Dielectric Constant Dielectrics ........................ 91 6.1 Introduction ........................................... 91 6.2 Dielectrics with Dielectric Constants in the Range 20 to 55 .................................................. 92 6.3 The BaTi4O9/Ba2Ti9O20 System ............................ 94 6.4 The Zirconium Titanate/Zirconium Tin Titanate System (ZrTiO4/(Zr,Sn)TiO4) ................................... 95 6.5 Perovskite Materials ................................... 95 6.6 High-Q Perovskites ..................................... 98 6.7 Temperature-Stable Dielectrics with Dielectric Constants Greater Than 55 .............................. 99 6.8 Commercially Available TTBs ........................... 102 References ................................................. 103 Selected Bibliography ...................................... 104 7 Metals at Microwave Frequencies ............................ 107 7.1 Introduction .......................................... 107 7.2 Application of Metals to Microwave Transmission Lines ................................................. 108 7.3 Copper ................................................ 108 7.4 Aluminum .............................................. 112 7.5 Silver ................................................ 113 7.6 Gold .................................................. 114 7.7 Relative Losses of Metals in Microstrip and Waveguide Transmission Lines .......................... 114 7.8 Nickel ................................................ 115 7.9 Steels ................................................ 116 7.10 Magnetic Temperature-Compensating Alloys .............. 116 7.11 Metal Alloys with Low or Zero Expansion Coefficient ... 116 7.12 Metal Plating on Plastics ............................. 117 References ................................................. 119 Selected Bibliography ...................................... 119 8 Ferrite Devices ............................................ 121 8.1 Introduction .......................................... 121 8.2 Below-Resonance Junction Devices—Selecting the Correct Magnetization ................................. 123 8.4 Magnetization Against Temperature ..................... 127 8.5 Insertion Loss Considerations Below Resonance ......... 128 8.4 Power Handling in Below-Resonance Junction Devices .... 130 8.7 Intermodulation in Below-Resonance Junction Devices ... 131 8.8 Microstrip Below-Resonance Devices .................... 133 8.9 Below-Resonance Linear Devices ........................ 133 8.10 Switching and Latching Devices ........................ 134 8.11 Temperature Considerations ............................ 139 8.13 Above-Resonance Devices ............................... 139 8.14 Power Handling in Above-Resonance Devices ............. 142 8.15 Above-Resonance Phase Shifters ........................ 142 8.14 Devices at Resonance .................................. 143 References ................................................. 143 Selected Bibliography ...................................... 144 9 Resonators and Filters Based on Dielectrics ................ 145 9.1 Introduction .......................................... 145 9.2 Circuit-Based Resonators .............................. 145 9.3 Coaxial Resonators .................................... 147 9.4 TE-Based Dielectric Resonator Applications ............ 149 9.5 Dielectric Resonator Loaded Cavities .................. 151 9.6 Dielectric Support Materials .......................... 155 9.7 TM Dielectric Resonator-Based Cavities ................ 156 9.8 Intermodulation in Dielectric Loaded Cavities ......... 157 References ................................................. 158 Selected Bibliography ...................................... 158 10 Antennas and Radomes ....................................... 159 10.1 Introduction .......................................... 159 10.2 Ferrite Rod Antennas for VHF and UHF .................. 159 10.3 Patch Antennas ........................................ 161 10.4 Ferrite Patch Antennas ................................ 163 10.5 Planar Inverted-F Antennas (PIFA) ..................... 164 10.6 Dielectric Resonator Antennas ......................... 164 10.7 Metal Antennas ........................................ 165 10.8 Radomes ............................................... 165 10.8.1 Half-Wave Radomes .............................. 166 10.8.2 A- and C-Sandwich Construction ................. 167 10.9 Foam Radome Materials ................................. 167 10.10 Ceramic Materials .................................... 168 10.11 Microwave and IR Transparent Radomes ................. 171 10.12 Absorbers for Antennas ............................... 172 10.13 Phased-Array Antennas ................................ 172 References ................................................. 172 Selected Bibliography ...................................... 173 11 Tunable Devices ............................................ 175 11.1 Introduction .......................................... 175 11.2 Magnetic Tuning ....................................... 175 11.3 Lumped Element Magnetically Tunable Filters ........... 176 11.1 Ferrite Phase Shifters ................................ 177 11.5 Magnetically Tunable Microstrip Filters ............... 178 11.5.1 Magnetically Tunable Dielectric Resonator Filters ... 178 11.6 Single-Crystal YIG Resonators ......................... 179 11.7 Epitaxial Thin-Film Magnetically Tuned YIG Devices .... 182 11.8 Ferroelectric-Tuned Devices ........................... 183 11.9 Tunable MEMS Devices .................................. 185 11.10 Low Temperature and Cryogenic Devices ................ 186 11.10.1 Magnetic Materials at Low Temperature ......... 186 11.10.2 Dielectrics at Low Temperature ................ 187 11.10.3 Superconductors at Microwave Frequencies ...... 188 References ................................................. 188 12 Measurement Techniques ..................................... 191 12.1 Introduction .......................................... 191 12.2 Dielectric Constant and Loss .......................... 191 12.2.1 Perturbation Techniques ........................ 193 12.2.2 Dielectric Properties Using Dielectric Resonators ..................................... 194 12.2.3 Dielectric Temperature Coefficients ............ 197 12.2.4 Low-Frequency Measurements of Dielectric Properties ..................................... 197 12.2.5 Split Resonator Technique ...................... 198 12.3 Magnetization ......................................... 199 12.3.1 Vibrating Sample Magnetometer .................. 200 12.3.2 AC Magnetization ............................... 201 12.4 Line Width Measurements ............................... 203 12.4.1 Ferrimagnetic Resonance ........................ 203 12.4.2 Spinwave Line Width ............................ 205 12.4.3 Effective Line Width and Magnetic Losses ....... 206 12.5 Permeability and Magnetic Loss Spectrum ............... 207 12.6 Intermodulation and Third-Harmonic Distortion Measurement ........................................... 208 12.7 Density ............................................... 209 References ................................................. 209 About the Author ........................................... 211 Index ...................................................... 213