Zero-field resonance protocols identify a hydrogen-related electron-nuclear defect in diamond and enable its nuclear spin qubit control with 1 ms coherence time.
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In a star network of qubits with XYZ Heisenberg interactions, localizable bipartite peripheral entanglement grows logarithmically with periphery size at zero xy-anisotropy and survives noisy measurements in the large-periphery limit.
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Zero-field identification and control of hydrogen-related electron-nuclear spin registers in diamond
Zero-field resonance protocols identify a hydrogen-related electron-nuclear defect in diamond and enable its nuclear spin qubit control with 1 ms coherence time.
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Logarithmic growth of peripheral entanglement concentrated via noisy measurements in a star network of spins
In a star network of qubits with XYZ Heisenberg interactions, localizable bipartite peripheral entanglement grows logarithmically with periphery size at zero xy-anisotropy and survives noisy measurements in the large-periphery limit.