Despite the apparent brilliance of display screens that light up the world, deep blue hues are hard to come by. Now a team of scientists led by Rutgers University that includes researchers at the U.S.

The Light Stage 3 (2002) was the first physical set to use an array of RGB LED lights surrounding an actor to create an ...

In a new study 'Quantum Dot DBR Lasers Monolithically Integrated on Silicon Photonics by In-Pocket Heteroepitaxy' published ...

Have you ever wondered how a tiny LED light can produce such brilliant illumination with almost no heat and very little energy? In this video, we dive deep into the fascinating world of Light ...

LED lights are one of the most common type of lights in our lives now, but the creation of specifically blue LEDs proved to be incredibly important.

Designed for life science applications, the PLT5 488HB_EP cyan laser diode from ams OSRAM delivers 300 mW of output power at 488 nm.

The 2014 Nobel Prize, attributed to Isamu Akasaki, Hiroshi Amano, and Shuji Nakamura for the discovery of blue light-emitting diodes, is one of them. LED diodes capable of emitting red, yellow, and ...

For a start, let's explain what LED stands for. The "L" stands for light, "E" stands for emitting, and "D" stands for diode. A light-emitting diode is therefore a semiconductor that produces light ...

Tokyo-based Itochu Corporation has agreed to accept shares of US-based fusion start-up Blue Laser Fusion (BLF) through a third-party allotment. Itochu also concluded a strategic and business alliance ...

The 450 nm wavelength blue diode laser is a novel laser for the vaporization, ablation and coagulation of different soft tissues (13 – 15), and its power is stronger than these available lasers, such ...