All-optical nanoscale thermometry with silicon-vacancy centers in diamond

Abstract

We demonstrate an all-optical thermometer based on an ensemble of silicon-vacancy centers (SiVs) in diamond by utilizing a temperature dependent shift of the SiV optical zero-phonon line transition frequency, λ/ T= 6.8\,GHz/K. Using SiVs in bulk diamond, we achieve 70\,mK precision at room temperature with a sensitivity of 360\,mK/Hz. Finally, we use SiVs in 200\,nm nanodiamonds as local temperature probes with 521\, mK/Hz sensitivity. These results open up new possibilities for nanoscale thermometry in biology, chemistry, and physics, paving the way for control of complex nanoscale systems.