With a focus on parallel optimization and nanoscale accuracy, precision positioning specialist PI is streamlining the optical alignment, test and packaging of quantum photonic devices Parallel lines: ...

Intelligent algorithms, faster motion controllers and the latest multi-axis mechanical motion systems allow to reduce the alignment time of photonics components and silicon photonics chips by 99% or ...

The precision required poses several challenges for testing and packaging procedures, necessitating the precise alignment of fiber optic devices in high-throughput production settings. PI offers ...

Data centers are undergoing a dramatic transformation to reduce the power consumption of high-speed data transmissions by 70% or more with co-packaged optics. By moving optical transceivers from the ...

One approach to creating a quantum computer is to use trapped ions, which rely on lasers delivered by optical fibers for quantum control. Our robust feedback control system uses a six-axis stage to ...

Photonics is poised for significant growth due a rapid increase in data volumes and the need to move that data quickly and with minimal heat. But to reach its full potential photonics will have to ...