Finding ways to deposit III–V compounds onto silicon wafers to make on-chip lasers has been a subject of investigation ever since. The problem is that the atom spacing and thermal-expansion ...

According to market analyst Boston Consulting Group, the market for advanced microchip packaging is expected to grow to more than 96 billion dollars by 2030. For Trumpf and Schmid, advanced packaging ...

The lasers are used for OEM and demanding scientific applications in biotechnology, analytics, imaging, sensor systems, inspection and micromachining. CryLaS products combine long term stability, low ...

A new paper from a team of scientists led by Professor Yating Wan from KAUST and Professor John Bowers from UCSB published in eLight discusses the current state of application-driven on-chip silicon ...

Their paper, published in Physical Review Letters, could open new possibilities for the development of spectroscopy techniques and on-chip laser systems. "Our work on coupled racetrack quantum ...

In a dramatic leap forward in scale, efficiency, and cost, researchers at Stanford University have built a Ti:sapphire laser on a chip. The prototype is four orders of magnitude smaller (10,000x ...

In a paper in the journal Scientific Reports, Blumenthal, Isichenko and team present a development in this direction with a chip-scale ultra-low-linewidth self-injection locked 780 nm laser.

Researchers have developed a "laser-powered artificial neuron," which is like a supercharged version of a biological neuron. This chip-based laser neuron mimics how human neurons work, but it's ...