Experimental observation of high-dimensional Bell nonlocality between two d=64 systems encoded in 12 qubits, with violations exceeding d=2 bounds and evidence that the nonlocality is genuinely collective across all qubits.
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2026 2verdicts
UNVERDICTED 2representative citing papers
Empirically learned dynamical decoupling sequences reduce average error rates in dynamic quantum circuits by a factor of three and enable nontrivial process fidelity for quantum Fourier transforms on up to 20 qubits.
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Experimental high-dimensional multi-qubit Bell non-locality on a superconducting quantum processor
Experimental observation of high-dimensional Bell nonlocality between two d=64 systems encoded in 12 qubits, with violations exceeding d=2 bounds and evidence that the nonlocality is genuinely collective across all qubits.
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Learning error suppression strategies for dynamic quantum circuits
Empirically learned dynamical decoupling sequences reduce average error rates in dynamic quantum circuits by a factor of three and enable nontrivial process fidelity for quantum Fourier transforms on up to 20 qubits.