Wednesday, December 9, 2020

Vector Photonics announces 1310nm/25G PCSEL chip

Vector Photonics, a spin-out from the University of Glasgow, is showcasing the development of its PCSEL-based, 1310nm / 25G chip at the virtual ECOC exhibition.

The semiconductor laser is based on PCSEL (Photonic Crystal Surface Emitting Lasers) technology.

Vector Photonics CEO, Neil Martin, said, “ECOC is Europe’s largest exhibition of fibre optic communications and photonics-related technologies. This makes it the ideal platform from which to announce our 1310nm / 25G PCSEL chip development and to state our intention to target datacentre applications as a priority. The datacentre market is rapidly growing, driven by the increasing use and demand for mobile devices, Internet of Things (IoT) and 5G. It is also a market where we can validate our technology against the IEEE 802.3 standard for datacoms chips, selling them through multiple, global, sales channels once successful.”

The data centre PCSEL project, known as LOCAL, has received a £280k, Innovate UK, Sustainable Innovation Fund government grant, in collaboration with the University of Glasgow.

https://www.vectorphotonics.co.uk/

Vector Photonics develops a new class of semiconductor lasers

Vector Photonics, a spin-out from the University of Glasgow, announced plans to commercialize a new class of Photonic Crystal Surface Emitting Lasers (PCSEL) technology for hyperscale data center applications. The technology uses a 2D grating structure to scatter light linearly and orthogonally.

Vector Photonics CEO, Neil Martin, said, “PCSELs are low cost, robust, have a broad wavelength range and high power. This combination of key characteristics gives them a huge advantage over most of the laser technologies used today. This includes VCSELs (Vertical Cavity Surface Emitting Lasers), which are robust, but compromise wavelength range and power, and EEL’s (Edge Emitting Lasers), which have broad wavelength range, but are expensive to make and are fragile to handle.

“PCSELs emit light from their top surface, like VCSELs, making them easy to package and incorporate into PCBs and electronic assemblies. They are also produced in a similar way to EELs, allowing us to draw on existing supply chain expertise and capacity as we grow.”

https://www.vectorphotonics.co.uk/