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Intro; Preface; Contents; Contributors; 1 Introduction to the Numerical Design of RF-Structures with Special Consideration for Axion Detector Design: A Tutorial; 1.1 Design Basics and Motivation for a Numerical Approach; 1.2 Numerical Methods; 1.2.1 Reduction of Effort Strategy; 1.2.2 Discretization of the Calculation Domain; 1.2.3 Finite Difference Vs. Finite Element Discretization; 1.2.4 Other Approaches; 1.3 Software and Design Concepts; 1.3.1 2D Software Tools; 1.3.2 3D Software Tools; 1.3.3 RF Structure Design Concepts; 1.3.3.1 Structure Description; 1.3.3.2 Material Properties

1.3.3.3 Boundary Conditions1.3.3.4 Solver and Meshing Controls; 1.3.3.5 Other Relevant Features of Software Tools; 1.4 Tip and Tricks; 1.5 Summary; References; 2 Symmetry Breaking in Haloscope Microwave Cavities; 2.1 Background; 2.2 Microwave Cavity Theory; 2.3 Numerical Analysis; 2.4 Conclusion; References; 3 Pound Cavity Tuning; 3.1 Introduction; 3.2 Block Diagram; 3.3 Transmission and Reflection Spectra; 3.4 Error Signals; 3.5 Locking Multiple Cavities; References; 4 Modification of a Commercial Phase Shifter for Cryogenic Applications; 4.1 Introduction; 4.2 Modifications; 4.3 Modeling

4.4 ConclusionsReferences; 5 Application of the Bead Perturbation Technique to a Study of a Tunable 5GHz Annular Cavity; 5.1 Background; 5.1.1 Introduction; 5.1.2 Electromagnetic Properties of the Resonator; 5.1.3 Bead Perturbation Technique; 5.2 Mode Mixing; 5.3 Grid Measurements; 5.4 Conclusion and Future Work; References; 6 Novel Resonators for Axion Haloscopes; 6.1 Haloscope Resonant Design; 6.2 Lumped 3D LC Resonators; 6.3 Dielectric Resonators; 6.3.1 Dielectric Disk Resonator; 6.3.2 Dielectric Ring Resonator; 6.4 Meta-materials; References; 7 Photonic Band Gap Cavities for a Future ADMX

7.1 Axions7.2 Haloscopes; 7.3 Photonic Band Gap Cavities; References; 8 First Test of a Photonic Band Gap Structure for HAYSTAC; 8.1 Introduction; 8.2 Background and Motivation; 8.2.1 Current HAYSTAC Cavity; 8.2.2 Mode Crossings; 8.3 Photonic Band Gap Structures; 8.3.1 Resonators; 8.3.2 Application to HAYSTAC; 8.4 Prototype Design; 8.4.1 Lattice; 8.4.2 Tuning Mechanism; 8.4.3 First Tests; 8.5 Discussion and Future Work; References; 9 Hybrid Cavities for Axion Detectors; 9.1 Introduction; 9.2 Microwave Properties of Superconductors; 9.3 Calculations of Q

9.4 Results for the Sidewall Qs for Superconductor on Copper9.5 Sidewall Qs with Thick Spacer Between Superconductor and Copper; 9.6 Q Including the Endcaps; 9.7 Conclusions; References; 10 An Introduction to Superconducting Qubits and Circuit Quantum Electrodynamics; 10.1 Introduction; 10.2 Superconducting Qubit Circuit Models; 10.2.1 Non-linearity in Superconducting Qubits; 10.2.2 Classical Circuit Models of Josephson Junctions; 10.2.3 Circuit Quantum Electrodynamics; 10.2.3.1 Quantizing the LC Oscillator; 10.2.3.2 Black Box Circuit Quantization; 10.3 Summary; References

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