Prof Zhang Zhiyong's team at Peking University developed a heterojunction-gated field-effect transistor (HGFET) that achieves ...

A team of researchers led by Professor Zhang Zhiyong at Peking University has developed a groundbreaking short-wave infrared ...

Researchers developed a type of infrared photodiode that is 35% more responsive at 1.55 m, the key wavelength for telecommunications, compared to other germanium-based components.

In the long wave infrared (LWIR, 8–14 μm ... This presents new avenues for advancing infrared thermal camouflage technology.

Our far-infrared lasers are cable of producing hundreds of milliwatts at frequencies covering most of the submillimeter-wave bands. When combined with polarimetric optics and signal processing ...

This new CQD-based technology offers a solution to the aforementioned ... Whitworth et al, Extended Short‐Wave Infrared Colloidal Quantum Dot Lasers with Nanosecond Excitation, Advanced ...

According to a study published in the journal Light: Science & Applications, the photodiode has been created using Germanium instead of the commonly used Indium,Gallium, and Arsenide. Germanium offers ...

University of Central Florida (UCF) researcher Debashis Chanda, a professor at UCF's NanoScience Technology Center, has developed a new technique to detect long wave infrared (LWIR) photons of ...

Short-wave infrared radiation (SWIR) is roughly the part of the electromagnetic spectrum between 1.4 μm – 3 μm, or 100 THz – 214 THz. This places it between visible light and microwaves ...

Short-wave infrared radiation (SWIR ... Before an amazing new technology can escape from the laboratory and find its way into factories, a production process that lends itself well to mass ...