A novel metamaterial emits significantly more heat than it absorbs under a magnetic field, breaking Kirchhoff’s law.

New results published in the journal Physical Review Letters detail how a specially designed metamaterial was able to tip the ...

Phlux Technology announces a 30 µm optical window version of the Aura family of 1550 nm Noiseless InGaAs APDs. The sensors, ...

Noiseless InGaAs APD technology was developed by adding an antimony alloy to the compound semiconductor manufacturing process. The resulting devices operate with an internal gain of up to 120, ...

Integrated InGaAs Area Image Sensor: The high dynamic range’s integrated InGaAs area image sensor enhances hyperspectral analysis. Users can obtain high-quality images in a broad range of wavelengths.

Near-infrared Single Photon Avalanche Diodes (SPADs) are the dominant, practical single photon detectors for quantum applications and low-level optical sensing. Although some infrared SPADs can ...

As a result, the company’s Noiseless InGaAs Avalanche Photodiodes (APDs) can detect signals at up to 50% greater distance in laser range finders, LiDAR systems, and optical fiber test equipment.

Gated InGaAs/InP avalanche photodiodes (APD) are the most practical device for detection of telecom single photons arriving at regular intervals. Here, Professor Zhiliang Yuan's group from ...

Phlux created its Noiseless InGaAs APD technology through adding an antimony alloy to the compound semiconductor manufacturing process. The resulting sensors can be operated with APD gains up to 120, ...

InGaAs photodiodes use a mixture of three elements to efficiently absorb light in the ~ 800 – 2600 nm. Depending on the exact bandgap required for the sensor, the ratio of indium to gallium can be ...