Stabilizing remote entanglement via waveguide dissipation
- URL: http://arxiv.org/abs/2402.15701v1
- Date: Sat, 24 Feb 2024 03:25:58 GMT
- Title: Stabilizing remote entanglement via waveguide dissipation
- Authors: Parth S. Shah, Frank Yang, Chaitali Joshi, Mohammad Mirhosseini
- Abstract summary: We demonstrate the autonomous stabilization of remote entanglement between a pair of non-interacting qubits connected by an open waveguide on a chip.
The decoherence-protected, steady-state remote entanglement offered via dissipative stabilization may find applications in distributed quantum computing, sensing, and communication.
- Score: 0.10241134756773226
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: Distributing entanglement between remote sites is integral to quantum
networks. Here, we demonstrate the autonomous stabilization of remote
entanglement between a pair of non-interacting superconducting qubits connected
by an open waveguide on a chip. In this setting, the interplay between a
classical continuous drive - supplied through the waveguide - and dissipation
into the waveguide stabilizes the qubit pair in a dark state, which,
asymptotically, takes the form of a Bell state. We use field-quadrature
measurements of the photons emitted to the waveguide to perform quantum state
tomography on the stabilized states, where we find a concurrence of
$0.504^{+0.007}_{-0.029}$ in the optimal setting with a stabilization time
constant of 56 $\pm$ 4 ns. We examine the imperfections within our system and
discuss avenues for enhancing fidelities and achieving scalability in future
work. The decoherence-protected, steady-state remote entanglement offered via
dissipative stabilization may find applications in distributed quantum
computing, sensing, and communication.
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