Optoscribe Ltd

Livingston EH54 7EJ


About Optoscribe Ltd


Rosebank Technology Pk
Rosebank Rd
Livingston EH54 7EJ
United Kingdom

More Info on Optoscribe Ltd

Formed in 2010, Optoscribe uses its innovative laser direct write technology to manufacture 3D glass-based integrated photonic circuits for the telecommunications and data communications markets.


Optoscribe Ltd
OptoCplrLT with fiber assembly, coupling to silicon photonics (SiPh) grating couplers.

Optoscribe begins sampling photonic integrated circuit coupling solution

The glass chip overcomes photonic integrated circuit (PIC) coupling challenges to enable high-volume automated assembly and help drive down costs.
FIGURE 1. Schematic of an edge coupler (a) and a grating coupler (b).

Silicon photonics gets a boost from low-profile, monolithic optical input/output coupler

Efficiently linking optical fibers to silicon photonics is crucial to high-volume deployment; a new monolithic 1:1 imaging coupler is compact and suitable for volume fabrication...
Here, light from an eight-channel fiber array is coupled to a silicon photonic circuit using Optoscribe's glass OptoCplrLT coupler, which uses total internal reflection via a curved indentation in the glass to direct the light down to the grating couplers in the circuit.

Optoscribe introduces glass component for high-volume fiber-to-silicon-photonics coupling

Created using Optoscribe's laser direct-write technology, the glass OptoCplrLT component couples light from a fiber array down to gratings in the silicon photonic circuit.
Fiber Optics

Fiber alignment arrays from Optoscribe available

OptoArray precision fiber alignment structures can help reduce losses in optical circuits through precise and stable alignment of fibers.
Optoscribe management include (left-to-right) chief commercial officer Steve McMahon, CEO Nick Psaila, chief operating officer Mark Hesketh, and CFO David Jolliffe.

Optoscribe expands 3D component manufacturing capability, doubles headcount

Optoscribe's third-generation laser inscription system delivers 20 times faster throughput than the previous generations.
(Image credit: Optoscribe)
More funding is available to develop laser-inscribed wafers like this one.

Optoscribe funding to expand monolithic integrated device development for datacenter transceivers

This funding will facilitate an expansion of current manufacturing capacity and the hiring of key engineering resources.
(Image credit: Optoscribe)
The combined requirements from datacenter operators for ever higher bandwidths, reduced footprints, and lower costs to stream data (as depicted in this illustration) demand new methods to address the constraints inherent in transceiver fiber-coupling solutions. Optoscribe says its 3D glass-based photonic integrated circuit (PIC) platform addresses these needs, as evidenced by a recent win to supply interconnect devices.
Fiber Optics

Optoscribe enters multi-million dollar agreement to supply datacenter interconnects

The multi-million dollar deal is to supply transceiver optical interconnect chips to a Tier 1 optical networking supplier.
FIGURE 1. A conceptual image shows the laser-inscription process; nonlinear absorption occurs at the laser focus, resulting in white-light emission and highly localized energy deposition. A laser can effectively draw a waveguide in a bulk-glass material.
Lasers & Sources

Optical Manufacturing: Femtosecond-laser direct-written waveguides produce quantum circuits in glass

Integrated photonics can be written in glass via nonlinear absorption by focusing a short-pulse-duration laser into the glass; quantum-integrated-photonics (QIP) devices are being...

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