We performed high-temperature luminescence studies of silicon-vacancy color centers obtained by ion implantation in single crystaldiamond. We observed reduction of the integrated fluorescence upon increasing temperature, ascribable to a transition channel with an activation energy of 180 meV that populates a shelving state. Nonetheless, the signal decreased only 50% and 75% with respect to room temperature at 500 K and 700 K, respectively. In addition, the color center is found highly photostable at temperatures exceeding 800 K. The luminescence of this color center is thus extremely robust even at large temperatures and it holds promise for novel diamond-based light-emitting devices.
Robust luminescence of the silicon-vacancy center in diamond at high temperatures
Mario Santoro;Nicole Fabbri;Francesco Saverio Cataliotti;Costanza Toninelli;Mario Agio
2015
Abstract
We performed high-temperature luminescence studies of silicon-vacancy color centers obtained by ion implantation in single crystaldiamond. We observed reduction of the integrated fluorescence upon increasing temperature, ascribable to a transition channel with an activation energy of 180 meV that populates a shelving state. Nonetheless, the signal decreased only 50% and 75% with respect to room temperature at 500 K and 700 K, respectively. In addition, the color center is found highly photostable at temperatures exceeding 800 K. The luminescence of this color center is thus extremely robust even at large temperatures and it holds promise for novel diamond-based light-emitting devices.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.