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


ABSTRACT: One of the most common approaches for quenching single-photon avalanche diodes is to use a passive resistor in series with it. A drawback of this approach has been the limited recovery speed of the single-photon avalanche diodes. High resistance is needed to quench the avalanche, leading to slower recharging of the single-photon avalanche diodes depletion capacitor. We address this issue by replacing a fixed quenching resistor with a bias-dependent adaptive resistive switch. Reversible generation of metallic conduction enables switching between low and high resistance states under unipolar bias. As an example, using a Pt/Al2O3/Ag resistor with a commercial silicon single-photon avalanche diodes, we demonstrate avalanche pulse widths as small as ~30 ns, 10× smaller than a passively quenched approach, thus significantly improving the single-photon avalanche diodes frequency response. The experimental results are consistent with a model where the adaptive resistor dynamically changes its resistance during discharging and recharging the single-photon avalanche diodes.

SUBMITTER: Zheng J 

PROVIDER: S-EPMC8938474 | biostudies-literature | 2022 Mar

REPOSITORIES: biostudies-literature

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

Zheng Jiyuan J   Xue Xingjun X   Ji Cheng C   Yuan Yuan Y   Sun Keye K   Rosenmann Daniel D   Wang Lai L   Wu Jiamin J   Campbell Joe C JC   Guha Supratik S  

Nature communications 20220321 1


One of the most common approaches for quenching single-photon avalanche diodes is to use a passive resistor in series with it. A drawback of this approach has been the limited recovery speed of the single-photon avalanche diodes. High resistance is needed to quench the avalanche, leading to slower recharging of the single-photon avalanche diodes depletion capacitor. We address this issue by replacing a fixed quenching resistor with a bias-dependent adaptive resistive switch. Reversible generatio  ...[more]

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