Microwave Cavities and Detectors for Axion Research [E-Book] : Proceedings of the 3rd International Workshop / edited by Gianpaolo Carosi, Gray Rybka.
Carosi, Gianpaolo, (editor)
Rybka, Gray, (editor)
1st edition 2020.
Cham : Springer, 2020
VIII, 175 pages 74 illustrations, 60 illustrations in color (online resource)
Springer Proceedings in Physics ; 245
Full Text
Table of Contents:
  • Chapter1. Microwave Cavity Simulation Using Ansys HFSS
  • Chapter2. Ultra High Field Solenoids and Axion Detection
  • Chapter3. Recent Results with the ADMX Experiment
  • Chapter4. The Microstrip SQUID Amplifier in ADMX
  • Chapter5. The ORGAN Experiment - Ben McAllister
  • Chapter6. The 3 cavity prototypes of RADES, an axion detector experiment using microwave filters
  • Chapter7. Reaching the 5
  • 9 μeV Range with ADMX: Multi-Cavity Array
  • Chapter8. High-Q 3D Photonic Bandgap Cavities for Axion Detection
  • Chapter9. Magnetic shielding and source-mass characterization in the ARIADNE axion experiment
  • Chapter10. CAPP-PACE experiment with a target mass range around 10 µeV
  • Chapter11. ADMX HiRes Analysis
  • Chapter12. Operation of a ferrimagnetic Axion haloscope at ma = 58 microeV
  • Chapter13. Overview of the Cosmic Axion Spin Precession Experiment (CASPEr)
  • Chapter14. Axion dark matter search at CAPP
  • Chapter15. Multiple-cell cavity for high mass axion dark matter search
  • Chapter16. Dark Matter Radio
  • Chapter17. Axion Detection with Precision Frequency Metrology
  • Chapter18. Quantum Oscillators and Bayesian Searches
  • Chapter19. MADMAX: Introduction and status
  • Chapter20. Orpheus: Extending the ADMX QCD Dark-Matter Axion Search to Higher Masses.