Spin Coherence and 14N ESEEM Effects of Nitrogen-Vacancy Centers in Diamond with X-band Pulsed ESR

Abstract

Pulsed ESR experiments are reported for ensembles of negatively-charged nitrogen-vacancy centers (NV-) in diamonds at X-band magnetic fields (280-400 mT) and low temperatures (2-70 K). The NV- centers in synthetic type IIb diamonds (nitrogen impurity concentration <1~ppm) are prepared with bulk concentrations of 2· 1013 cm-3 to 4· 1014 cm-3 by high-energy electron irradiation and subsequent annealing. We find that a proper post-radiation anneal (1000 for 60 mins) is critically important to repair the radiation damage and to recover long electron spin coherence times for NV-s. After the annealing, spin coherence times of T2 = 0.74~ms at 5~K are achieved, being only limited by 13C nuclear spectral diffusion in natural abundance diamonds. At X-band magnetic fields, strong electron spin echo envelope modulation (ESEEM) is observed originating from the central 14N nucleus. The ESEEM spectral analysis allows for accurate determination of the 14N nuclear hypefine and quadrupole tensors. In addition, the ESEEM effects from two proximal 13C sites (second-nearest neighbor and fourth-nearest neighbor) are resolved and the respective 13C hyperfine coupling constants are extracted.