Dynamic-quenching of a single-photon avalanche photodetector using an adaptive resistive switch.

Single-photon avalanche diodes (SPAD) are often quenched by using a passive resistor in series. This limits the recovery speed of the SPAD. High resistance needed to quench the avalanche leads to slower recharging of the SPAD. We resolve this by replacing the fixed quenching resistor with a bias-dependent adaptive oxide resistive switch that assumes low and high resistance states under unipolar bias. Using a Pt/Al2O3/Ag resistor with a commercial SPAD, we demonstrate avalanche pulse widths of ~37 ns, 8* smaller than a passively quenched approach. The results are consistent with a model where the adaptive resistor changes resistance during SPAD discharging and recharging.