The millimeter wave (mm-wave) frequency band provides exciting prospects for quantum science and devices since many high-fidelity quantum emitters, including Rydberg atoms, molecules, and silicon vacancies, exhibit resonances near 100 GHz. High-Q resonators at these frequencies would give access to strong interactions between emitters and single photons, leading to rich and unexplored quantum phenomena at temperatures above 1 K. We report a 3D mm-wave cavity with a measured single-photon internal quality factor of and mode volume of at 98.2 GHz, sufficient to reach strong coupling in a Rydberg cavity quantum electrodynamics system. An in situ piezotunability of 18 MHz facilitates coupling to specific atomic transitions. Our unique, seamless, and optically accessible resonator design is enabled by the realization that intersections of 3D waveguides support tightly confined bound states below the waveguide cutoff frequency. Harnessing the features of our cavity design, we realize a hybrid mm-wave and optical cavity, designed for interconversion and entanglement of mm-wave and optical photons using Rydberg atoms.
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9 March 2020
Research Article|
March 13 2020
A tunable high-Q millimeter wave cavity for hybrid circuit and cavity QED experiments
Aziza Suleymanzade
;
Aziza Suleymanzade
1
Department of Physics, University of Chicago
, Chicago, Illinois 60637, USA
2
James Franck Institute, University of Chicago
, Chicago, Illinois 60637, USA
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Alexander Anferov;
Alexander Anferov
1
Department of Physics, University of Chicago
, Chicago, Illinois 60637, USA
2
James Franck Institute, University of Chicago
, Chicago, Illinois 60637, USA
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Mark Stone;
Mark Stone
1
Department of Physics, University of Chicago
, Chicago, Illinois 60637, USA
2
James Franck Institute, University of Chicago
, Chicago, Illinois 60637, USA
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Ravi K. Naik
;
Ravi K. Naik
1
Department of Physics, University of Chicago
, Chicago, Illinois 60637, USA
2
James Franck Institute, University of Chicago
, Chicago, Illinois 60637, USA
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Andrew Oriani;
Andrew Oriani
1
Department of Physics, University of Chicago
, Chicago, Illinois 60637, USA
3
Pritzker School of Molecular Engineering, University of Chicago
, Chicago, Illinois 60637, USA
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Jonathan Simon;
Jonathan Simon
1
Department of Physics, University of Chicago
, Chicago, Illinois 60637, USA
2
James Franck Institute, University of Chicago
, Chicago, Illinois 60637, USA
3
Pritzker School of Molecular Engineering, University of Chicago
, Chicago, Illinois 60637, USA
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David Schuster
David Schuster
a)
1
Department of Physics, University of Chicago
, Chicago, Illinois 60637, USA
2
James Franck Institute, University of Chicago
, Chicago, Illinois 60637, USA
3
Pritzker School of Molecular Engineering, University of Chicago
, Chicago, Illinois 60637, USA
a)Author to whom correspondence should be addressed: azizas@uchicago.edu
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a)Author to whom correspondence should be addressed: azizas@uchicago.edu
Appl. Phys. Lett. 116, 104001 (2020)
Article history
Received:
November 18 2019
Accepted:
March 05 2020
Citation
Aziza Suleymanzade, Alexander Anferov, Mark Stone, Ravi K. Naik, Andrew Oriani, Jonathan Simon, David Schuster; A tunable high-Q millimeter wave cavity for hybrid circuit and cavity QED experiments. Appl. Phys. Lett. 9 March 2020; 116 (10): 104001. https://doi.org/10.1063/1.5137900
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