High-Cooperativity Coupling of Electron-Spin Ensembles to Superconducting Cavities

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27 September 2010

journal article
research article
Published by American Physical Society (APS) in Physical Review Letters

Vol. 105 (14), 140501
https://doi.org/10.1103/physrevlett.105.140501

Abstract

Electron spins in solids are promising candidates for quantum memories for superconducting qubits because they can have long coherence times, large collective couplings, and many qubits could be encoded into spin waves of a single ensemble. We demonstrate the coupling of electron-spin ensembles to a superconducting transmission-line cavity at strengths greatly exceeding the cavity decay rates and comparable to the spin linewidths. We also perform broadband spectroscopy of ruby (

{Al}_{2} O_{3} : {Cr}^{3 +}

) at millikelvin temperatures and low powers, using an on-chip feedline. In addition, we observe hyperfine structure in diamond

P 1

Keywords

This publication has 24 references indexed in Scilit:

Storage of Multiple Coherent Microwave Excitations in an Electron Spin Ensemble
Physical Review Letters, 2010
Strong Coupling of a Spin Ensemble to a Superconducting Resonator
Physical Review Letters, 2010
Hybrid quantum devices and quantum engineering
Physica Scripta, 2009
Quantum Computing with an Electron Spin Ensemble
Physical Review Letters, 2009
Strong Magnetic Coupling of an Ultracold Gas to a Superconducting Waveguide Cavity
Physical Review Letters, 2009
Demonstration of two-qubit algorithms with a superconducting quantum processor
Nature, 2009
Cavity QED Based on Collective Magnetic Dipole Coupling: Spin Ensembles as Hybrid Two-Level Systems
Physical Review Letters, 2009
A coherent all-electrical interface between polar molecules and mesoscopic superconducting resonators
Nature Physics, 2006
Long-Lived Memory for Mesoscopic Quantum Bits
Physical Review Letters, 2003
Spin Echo Serial Storage Memory
Journal of Applied Physics, 1955

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