Publication

High Temperature Treatment of Diamond Particles Toward Enhancement of Their Quantum Properties

Torelli, M. D., Nunn, N. A., Jones, Z. R., Vedelaar, T., Padamati, S. K., Schirhagl, R., Hamers, R. J., Shames, A. I., Danilov, E. O., Zaitsev, A. & Shenderova, O. A., 10-Jun-2020, In : Frontiers of Physics. 8, 11 p., 205.

Research output: Contribution to journalArticleAcademicpeer-review

Fluorescence of the negatively charged nitrogen-vacancy (NV-) center of diamond is sensitive to external electromagnetic fields, lattice strain, and temperature due to the unique triplet configuration of its spin states. Their use in particulate diamond allows for the possibility of localized sensing and magnetic-contrast-based differential imaging in complex environments with high fluorescent background. However, current methods of NV(-)production in diamond particles are accompanied by the formation of a large number of parasitic defects and lattice distortions resulting in deterioration of the NV(-)performance. Therefore, there are significant efforts to improve the quantum properties of diamond particles to advance the field. Recently it was shown that rapid thermal annealing (RTA) at temperatures much exceeding the standard temperatures used for NV(-)production can efficiently eliminate parasitic paramagnetic impurities and, as a result, by an order of magnitude improve the degree of hyperpolarization of(13)C via polarization transfer from optically polarized NV(-)centers in micron-sized particles. Here, we demonstrate that RTA also improves the maximum achievable magnetic modulation of NV(-)fluorescence in micron-sized diamond by about 4x over conventionally produced diamond particles endowed with NV-. This advancement can continue to bridge the pathway toward developing nano-sized diamond with improved qualities for quantum sensing and imaging.

Original languageEnglish
Article number205
Number of pages11
JournalFrontiers of Physics
Volume8
Publication statusPublished - 10-Jun-2020

    Keywords

  • fluorescent nanodiamond (FND), nanodiamond (ND), fluorescence, photoluminescence (PL), magnetic modulation, biosensing, photobleaching, hyperpolarization, ELECTRON-SPIN-RESONANCE, FLUORESCENT NANODIAMONDS, MAGNETIC-RESONANCE, HIGH-PRESSURE, CENTERS, SURFACE, FIELD, CELLS

ID: 130093139