Programmable energy-selective local reservoirs stabilize entangled single-excitation states in coupled superconducting qubits with fidelity up to 90.8% via parametric driving to readout resonators.
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Classical shadow protocols using uniform sampling over compact symmetric spaces admit a unifying theory and yield slight sample-complexity improvements over standard schemes for certain observable distributions.
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Entangling Superconducting Qubits via Energy-Selective Local Reservoirs
Programmable energy-selective local reservoirs stabilize entangled single-excitation states in coupled superconducting qubits with fidelity up to 90.8% via parametric driving to readout resonators.
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Classical shadows over symmetric spaces
Classical shadow protocols using uniform sampling over compact symmetric spaces admit a unifying theory and yield slight sample-complexity improvements over standard schemes for certain observable distributions.