Double-quantum spin-relaxation limits to coherence of near-surface nitrogen-vacancy centers

Abstract

We probe the relaxation dynamics of the full three-level spin system of near-surface nitrogen-vacancy (NV) centers in diamond to define a T1 relaxation time that helps resolve the T2 ≤ 2T1 coherence limit of the NV's subset qubit superpositions. We find that double-quantum spin relaxation via electric field noise dominates T1 of near-surface NVs at low applied magnetic fields. Furthermore, we differentiate 1/fα spectra of electric and magnetic field noise using a novel noise-spectroscopy technique, with broad applications in probing surface-induced decoherence at material interfaces.