Phlux Technology is offering an evaluation board for its Aura family of Noiseless InGaAs avalanche photodiodes (APDs). The APDs are used as 1550nm infrared sensors and claim 12 times greater ...

The 70 mm x 60 mm board, which comes with a MAX40661 transimpedance amplifier, is designed to accelerate design and ...

The 70 mm x 60 mm board, which comes with a MAX40661 transimpedance amplifier, is designed to accelerate design and development by simplifying the evaluation and measurement of Phlux’s Aura line of ...

Avalanche photodiodes (APDs) for ultra-sensitive infrared detection at eye-safe wavelengths are built around compound ...

Pictured, right: these 30 µm Noiseless InGaAs® APDs are high-speed, high-precision infrared sensors. Sheffield, UK,-- Phlux Technology, a manufacturer of avalanche photodiode (APD) infrared sensors, ...

Breakthrough in energy-efficient avalanche-based amorphization could revolutionize data storage Date: November 6, 2024 Source: University of Pennsylvania School of Engineering and Applied Science ...

We first present a discussion on the concept of PAU, the guidelines for photon avalanche in nanoparticles, and typical examples. Next, the frontier applications of photon avalanching nanoparticles in ...

Phlux Technology’s InGaAs technology can operate at 1,550 nm, is 12× more sensitive than a traditional avalanche photodiode.

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.

This study aims to investigate the effectiveness of different guard ring (GR) structures in suppressing edge breakdown issues in InGaAs/InP planar avalanche photodiodes (APDs) with a thicker ...