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Published August 14, 2024 | Version v1
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Autonomous stabilization with programmable stabilized state

Creators

  • 1. University of Chicago
  • 2. Colorado School of Mines

Description

Reservoir engineering is a powerful technique to autonomously stabilize a quantum state. Traditional schemes involving multi-body states typically function for discrete entangled states. In this work, we enhance the stabilization capability to a continuous manifold of states with programmable stabilized state selection using multiple continuous tuning parameters. We experimentally achieve 84.6% and 82.5% stabilization fidelity for the odd and even-parity Bell states as two special points in the manifold. We also perform fast dissipative switching between these opposite parity states within 1.8 μs and 0.9 μs by sequentially applying different stabilization drives. Our result is a precursor for new reservoir engineering-based error correction schemes.

Data availability

Source data are provided with the paper. All data used within this paper are available from the corresponding author upon request.

Simulation codes are provided with the paper. All other codes used within this paper are available from the corresponding author upon request.

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Additional details

Identifiers

DOI
10.1038/s41467-024-51262-4
Other
oai:uchicago.tind.io:13176

Funding

AFOSR
FA9550-19-1-0399
ARO
W911NF-17-S0001
National Science Foundation
PHY-1653820

UChicago Information

Division(s)
Physical Sciences Division, Pritzker School of Molecular Engineering
Department(s)
Physics
Center(s) or Institute(s)
James Franck Institute