Synopsis: Graphene Helps Catch Light Quanta


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According to Physics – spotlighting exceptional research

The use of graphene in a single-photon detector makes it dramatically more sensitive to low-frequency light.

Synopsis figure

E. D. Walsh et al., Phys. Rev. Applied (2017)

 

For many light-based quantum applications, failing to log the arrival of even a few photons can undermine performance. Some single-photon detectors work by registering a temperature rise when they absorb one photon, but this sensitivity diminishes for small photon energies (low frequencies.) Researchers have now shown that incorporating graphene into a particular type of single-photon detector could extend the lower end of the detector’s frequency range by four decades, to include gigahertz light (radio waves).

The device, proposed by Kin Chung Fong from Raytheon BBN Technologies, Massachusetts, and colleagues, sandwiches a sheet of graphene between two layers of superconducting material to create a Josephson junction. At low temperatures, and in the absence of photons, a superconducting current flows through the device. But the heat from a single photon is sufficient to warm the graphene, which alters the Josephson junction such that no superconducting current can flow. Thus photons can be detected by monitoring the device’s current.

 

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This article and images were originally posted on [Physics – spotlighting exceptional research] August 24, 2017 at 03:16PM

Credit to Author and Physics – spotlighting exceptional research

 

 

 

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