Related papers: Cavity-enhanced Ramsey spectroscopy at a Rydberg-atom-superconducting-circuit interface

Cavity-enhanced Ramsey spectroscopy at a Rydberg-atom-superconducting-circuit interface

URL: http://arxiv.org/abs/2011.11326v1
Date: Mon, 23 Nov 2020 11:05:24 GMT
Title: Cavity-enhanced Ramsey spectroscopy at a Rydberg-atom-superconducting-circuit interface
Authors: D. M. Walker, A. A. Morgan and S. D. Hogan
Abstract summary: coherent interaction of Rydberg helium atoms with microwave fields exploited. Resonant resonance frequency and quality factor determined with atoms acting as microscopic quantum sensors.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: The coherent interaction of Rydberg helium atoms with microwave fields in a $\lambda/4$ superconducting coplanar waveguide resonator has been exploited to probe the spectral characteristics of an individual resonator mode. This was achieved by preparing the atoms in the 1s55s$^3$S$_1$ Rydberg level by resonance enhanced two-color two-photon excitation from the metastable 1s2s$^3$S$_1$ level. The atoms then travelled over the resonator in which the third harmonic microwave field, at a frequency of $\omega_{\mathrm{res}}=2\pi\times19.556$ GHz, drove the two-photon 1s55s$^3$S$_1\rightarrow$1s56s$^3$S$_1$ transition. By injecting a sequence of Ramsey pulses into the resonator, and monitoring the coherent evolution of the Rydberg state population by state-selective pulsed electric field ionization as the frequency of the microwave field was tuned, spectra were recorded that allowed the resonator resonance frequency and quality factor to be determined with the atoms acting as microscopic quantum sensors.

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