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Circuit Cavity QED with Macroscopic Solid-State Spin Ensembles

  • Book
  • © 2017

Overview

Authors:
  1. Stefan Putz

    1. Department of Physics, Princeton University, Princeton, USA

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  • Nominated as an outstanding PhD thesis by the TU Wien, Austria
  • Derives an intuitive picture of collective spin phenomena
  • Presents both theoretical discussions and experimental verification
  • Includes supplementary material: sn.pub/extras

Part of the book series: Springer Theses (Springer Theses)

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Table of contents (10 chapters)

  1. Front Matter

    Pages i-xviii
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  2. Introduction and Outline

    • Stefan Putz
    Pages 1-6

  3. Confined Electromagnetic Waves—Cavities

    • Stefan Putz
    Pages 7-23

  4. Spins in the Cavity—Cavity QED

    • Stefan Putz
    Pages 25-49

  5. Experimental Implementation—Solid-State Hybrid Quantum System

    • Stefan Putz
    Pages 51-69

  6. Collective Spin States Coupled to a Single Mode Cavity—Strong Coupling

    • Stefan Putz
    Pages 71-81

  7. Spin Ensembles and Decoherence in the Strong-Coupling Regime—Cavity Protection

    • Stefan Putz
    Pages 83-92

  8. Engineering of Long-Lived Collective DarkStates—Spectral Hole Burning

    • Stefan Putz
    Pages 93-102

  9. Amplitude Bistability with Inhomogeneous Spin Broadening—Driven Tavis-Cummings

    • Stefan Putz
    Pages 103-111

  10. Spin Echo Spectroscopy—Spin Refocusing

    • Stefan Putz
    Pages 113-118

  11. Conclusion and Outlook

    • Stefan Putz
    Pages 119-122

  12. Back Matter

    Pages 123-124
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Keywords

About this book

This thesis combines quantum electrical engineering with electron spin resonance, with an emphasis on unraveling emerging collective spin phenomena. The presented experiments, with first demonstrations of the cavity protection effect, spectral hole burning and bistability in microwave photonics, cover new ground in the field of hybrid quantum systems. The thesis starts at a basic level, explaining the nature of collective effects in great detail. It develops the concept of Dicke states spin-by-spin, and introduces it to circuit quantum electrodynamics (QED), applying it to a strongly coupled hybrid quantum system studied in a broad regime of several different scenarios. It also provides experimental demonstrations including strong coupling, Rabi oscillations, nonlinear dynamics, the cavity protection effect, spectral hole burning, amplitude bistability and spin echo spectroscopy.

Authors and Affiliations

  • Department of Physics, Princeton University, Princeton, USA

    Stefan Putz

About the author

Stefan Putz completed his Ph.D. at TU Wien in the field of solid state cavity QED. As postdoctoral research associate at Princeton University he continues his research on hybrid quantum systems and novel circuit QED architectures.

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