Pulsed electron spin resonance of an organic microcrystal by dispersive readout.

@article{Keyser2020PulsedES,
  title={Pulsed electron spin resonance of an organic microcrystal by dispersive readout.},
  author={Ailsa K V Keyser and Jonathan J. Burnett and Sergey E. Kubatkin and Andrey Danilov and Mark Oxborrow and Sebastian de Graaf and Tobias Lindstr{\"o}m},
  journal={Journal of magnetic resonance},
  year={2020},
  volume={321},
  pages={
          106853
        }
}
3 Citations

Figures from this paper

Strong coupling of a Gd$^{3+}$ multilevel spin system to an on-chip superconducting resonator

We report the realization of a strong coupling between a Gd 3 + spin ensemble hosted in a scheelite (CaWO 4 ) single crystal and the resonant mode of a coplanar stripline superconducting cavity

Optimal Control of Molecular Spin Qudits

Alberto Castro, 2 Adrián Garćıa Carrizo, David Zueco, 4 and Fernando Luis 4 ARAID Foundation, Avenida de Ranillas 1, 50018 Zaragoza, Spain Institute for Biocomputation and Physics of Complex Systems

Transmission Spectroscopy of Molecular Spin Ensembles in the Dispersive Regime

The readout in the dispersive regime is originally developed—and it is now largely exploited—for non‐demolitive measurement of super‐ and semiconducting qubits. More recently it has been successfully

References

SHOWING 1-10 OF 43 REFERENCES

Magnetic resonance with quantum microwaves

In usual electron-spin resonance (ESR) experiments, the coupling between spins and their electromagnetic environment is quite weak, severely limiting the sensitivity of the measurements. Using a

Inductive-detection electron-spin resonance spectroscopy with 65 spins/ Hz sensitivity

We report electron spin resonance spectroscopy measurements performed at millikelvin temperatures in a custom-built spectrometer comprising a superconducting micro-resonator at 7 GHz and a Josephson

Probing dynamics of an electron-spin ensemble via a superconducting resonator.

The observed temperature-independent spin relaxation time indicates that spin outdiffusion across the mode volume dominates over spin-lattice relaxation, with implications for the use of subensembles as independent quantum memories.

Electron Spin Resonance at the Level of 10^{4} Spins Using Low Impedance Superconducting Resonators.

We report on electron spin resonance measurements of phosphorus donors localized in a 200  μm^{2} area below the inductive wire of a lumped element superconducting resonator. By combining quantum

Cavity QED with magnetically coupled collective spin states.

Strong coupling between an ensemble of nitrogen-vacancy center electron spins in diamond and a superconducting microwave coplanar waveguide resonator is reported and hyperfine coupling to (13)C nuclear spins is measured, which is a first step towards a nuclear ensemble quantum memory.

Dispersive readout of ferromagnetic resonance for strongly coupled magnons and microwave photons

We demonstrate the dispersive measurement of ferromagnetic resonance in a yttrium iron garnet sphere embedded within a microwave cavity. The reduction in the longitudinal magnetization at resonance

Storing quantum information in spins and high-sensitivity ESR.

Dynamics of dispersive single-qubit readout in circuit quantum electrodynamics

The quantum state of a superconducting qubit nonresonantly coupled to a transmission line resonator can be determined by measuring the quadrature amplitudes of an electromagnetic field transmitted

Galvanically split superconducting microwave resonators for introducing internal voltage bias

We present the design and performance of high-Q superconducting niobium nitride microwave resonators intended for use in hybrid quantum systems, coupling spin degrees of freedom to the cavity mode,