Correlated dephasing of two spin qubits near materials isolates rotational symmetry in nonlocal noise correlations, enabling discrimination of s-, d-, and g-wave superconducting gaps and altermagnet types at nanoscale and low frequencies.
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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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Correlated Quantum Dephasometry: Symmetry-Resolved Noise Spectroscopy of Two-Dimensional Superconductors and Altermagnets
Correlated dephasing of two spin qubits near materials isolates rotational symmetry in nonlocal noise correlations, enabling discrimination of s-, d-, and g-wave superconducting gaps and altermagnet types at nanoscale and low frequencies.
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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.