A general perturbation theory for local quantum uncertainty is derived and applied in linear response to show that driving frequency can resonantly enhance quantum discord without entanglement in a two-spin Heisenberg model.
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A dynamical decoupling protocol enables fast high-fidelity gates on a central qubit coupled to targets, demonstrated via IBMQ simulation and adapted for 15NV centers in diamond.
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General perturbation theory for local quantum uncertainty and its formulation in the linear-response regime
A general perturbation theory for local quantum uncertainty is derived and applied in linear response to show that driving frequency can resonantly enhance quantum discord without entanglement in a two-spin Heisenberg model.
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Quantum Gates via Dynamical Decoupling of Central Qubit on IBMQ and 15NV Center in Diamond
A dynamical decoupling protocol enables fast high-fidelity gates on a central qubit coupled to targets, demonstrated via IBMQ simulation and adapted for 15NV centers in diamond.