High-Temperature Superconducting Microwave Circuits and Applications /
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| Author / Creator: | Liu, Haiwen, author. |
|---|---|
| Imprint: | Singapore : Springer ; Beijing : Science Press, [2019] |
| Description: | 1 online resource |
| Language: | English |
| Subject: | |
| Format: | E-Resource Book |
| URL for this record: | http://pi.lib.uchicago.edu/1001/cat/bib/11873198 |
Table of Contents:
- Intro; Preface; Contents; 1 Introduction; 1.1 Motivation; 1.2 Background; 1.3 Chapter Overview; References; 2 Fundamental of HTS Materials and Microwave Filter Design; 2.1 Overview; 2.2 HTS Materials and Process; 2.2.1 Characteristics of HTS Materials; 2.2.2 Substrates for Superconductor; 2.2.3 Device Processing; 2.2.4 HTS Loss Contributions; 2.2.5 Packaging and Housing Losses; 2.3 HTS Filter Design; 2.3.1 Lowpass Prototype Filters and Elements; 2.3.2 Frequency and Element Transformations (Bandpass Transformation); 2.3.3 The HTS Bandpass Filter Design Procedure; 2.4 Summary; References
- 3 Multi-band HTS Filter Based on Degenerate Mode Resonator3.1 Overview; 3.2 Compact Dual-Mode Resonator; 3.3 Filter Design and Results; 3.4 Summary; References; 4 Compact HTS Filter Design Based on Controllable Multimode Resonator; 4.1 Overview; 4.2 Multimode Stub-Loaded Resonator; 4.2.1 Even-/Odd-Mode Method and Stub-Loaded Resonator; 4.2.2 Open Stub Loaded Multi-mode Resonator; 4.2.3 Short Circuit Stub Loaded Multi-mode Resonator; 4.3 Multimode Stepped-Impedance Resonator; 4.3.1 Basis of Stepped-Impedance Resonator; 4.3.2 Asymmetric Stepped-Impedance Resonator
- 4.3.3 Symmetric Stub-Loaded Stepped-Impedance Resonator4.4 Summary; References; 5 Multi-band HTS Filters Based on Hybrid-Mode Square Ring Loaded Resonator (SRLR); 5.1 Overview; 5.2 Basic Structure of Square Ring Loaded Resonator (SRLR); 5.2.1 Microstrip Line Structure; 5.2.2 Transmission Line Model; 5.3 Characteristics Analysis of Quadruple-Mode SRLR; 5.3.1 Exploitation of Resonant Modes; 5.3.2 Even and Odd-Mode Analysis; 5.3.3 Design Net-Type Graphs and Demonstration; 5.3.4 Generating Mechanism of Transmission Zeros; 5.4 Quad-Band HTS Microstrip Bandpass Filter; 5.4.1 SRLR Unit Design
- 5.4.2 Design of the Second-Order HTS Bandpass Filter5.4.3 Implementation of the HTS Bandpass Filter; 5.5 High-Order HTS Dual-Band BPFs on Dual-Mode HRR; 5.5.1 Properties of Dual-Mode HRR; 5.5.2 Design of Third-Order HTS Dual-Band Filter; 5.5.3 Design of Eighth-Order HTS Dual-Band Filter; 5.5.4 Fabrication and Experimental Verification; 5.6 Summary; References; 6 HTS Filter Based on Meta-material Resonator; 6.1 Overview; 6.2 Observation of the Tunable Nonlinear Effects in Superconducting Metamaterial; 6.2.1 Tunable Nonlinear Effects; 6.2.2 Results; 6.2.3 Discussion; 6.2.4 Methods
- 6.3 Compact HTS Filter Based on Composite Right/Left-Handed Metamaterial Resonator6.3.1 Composite Right/Left-Handed Metamaterial; 6.3.2 Experimental Results; 6.4 Wideband HTS Bandpass Filter Based on Metamaterial Stepped-Impedance Resonator; 6.4.1 Filter Design and Its Characteristics; 6.4.2 Filter Fabrication and Measured Results; 6.5 Split Ring Resonator for Filter Design; 6.6 Dual-Band HTS Filter with Octagonal Split Ring Resonator; 6.6.1 Filter Structure; 6.6.2 Octagonal Split Ring Resonator; 6.6.3 Coupling Schemes; 6.6.4 Experimental Results and Discussion