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A hybrid quantum system of atoms trapped on ultrathin optical fibers coupled to superconductors

Authors :
U. Chukwu
Guy Beadie
Jongmin Lee
J. E. Hoffman
K. D. Voigt
J. D. Wong-Campos
P. Kordell
Christopher Lobb
Jeffrey Grover
J. B. Hertzberg
Sylvain Ravets
Pablo Solano
Frederick C. Wellstood
Steven L. Rolston
Fredrik K. Fatemi
J. R. Anderson
Luis A. Orozco
Source :
SPIE Proceedings.
Publication Year :
2013
Publisher :
SPIE, 2013.

Abstract

Hybrid quantum systems can be formed that combine the strengths of multiple platforms while avoiding the weaknesses. Here we report on progress toward a hybrid quantum system of neutral atom spins coupled to superconducting qubits. We trap laser-cooled rubidium atoms in the evanescent field of an ultrathin optical fiber, which will be suspended a few microns above a superconducting circuit that resonates at the hyperfine frequency of the Rb atoms, allowing magnetic coupling between the atoms and superconductor. As this will be done in a dilution refrigerator environment, the technical demands on the optical fiber is severe. We have developed and optimized a tapered fiber fabrication system, achieving optical transmission in excess of 99.95% , and fibers that can sustain 400 mW of optical power in a UHV environment. We have also optimized tapered fibers that can support higher order optical modes with high transmission (> 97%), which may be useful for different optical potential geometries. We have developed an in-situ tunable high-Q superconducting microwave resonator that can be tuned to within the resonator linewidth of the 6.8 GHz frequency of the Rb hyperfine transition.

Details

ISSN :
0277786X
Database :
OpenAIRE
Journal :
SPIE Proceedings
Accession number :
edsair.doi...........d9e23638e4ebcf18449ca88a231bd92a
Full Text :
https://doi.org/10.1117/12.2024362