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.
Title resolution pending
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
fields
quant-ph 2verdicts
UNVERDICTED 2representative citing papers
Experimental demonstration of quantum sensing with a central spin ensemble in hBN, mapping hyperfine interactions, achieving 80 μs coherence under dynamical decoupling and sub-microtesla AC magnetic sensitivity at 10 nm distance.
citing papers explorer
-
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.
-
Quantum sensing with a spin ensemble in a two-dimensional material
Experimental demonstration of quantum sensing with a central spin ensemble in hBN, mapping hyperfine interactions, achieving 80 μs coherence under dynamical decoupling and sub-microtesla AC magnetic sensitivity at 10 nm distance.