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

Alp Sipahigil; Christian T. Nguyen; Denis D. Sukachev; Fedor Jelezko; Liudmila F. Kulikova; Mihir K. Bhaskar; Mikhail D. Lukin; Ruffin E. Evans; Valery A. Davydov; Viatcheslav N. Agafonov

arxiv: 1708.05419 · v1 · pith:UDMU6YMPnew · submitted 2017-08-17 · 🪐 quant-ph · cond-mat.mes-hall

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

Christian T. Nguyen , Ruffin E. Evans , Alp Sipahigil , Mihir K. Bhaskar , Denis D. Sukachev , Viatcheslav N. Agafonov , Valery A. Davydov , Liudmila F. Kulikova

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Fedor Jelezko Mikhail D. Lukin

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classification 🪐 quant-ph cond-mat.mes-hall

keywords mathrmdiamondnanoscalesivstemperatureall-opticalcentersdelta

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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, $\Delta\lambda/\Delta T= 6.8\,\mathrm{GHz/K}$. Using SiVs in bulk diamond, we achieve $70\,\mathrm{mK}$ precision at room temperature with a sensitivity of $360\,\mathrm{mK/\sqrt{Hz}}$. Finally, we use SiVs in $200\,\mathrm{nm}$ nanodiamonds as local temperature probes with $521\,\mathrm{ mK/\sqrt{Hz}}$ sensitivity. These results open up new possibilities for nanoscale thermometry in biology, chemistry, and physics, paving the way for control of complex nanoscale systems.

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

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