Photonic integrated circuits (PICs) are compact devices that combine multiple optical components on a single chip. They have a wide range of applications in communications, ranging, sensing, computing ...

(Nanowerk News) PI's new F-141 photonics alignment system provides high throughput with motion in 4 and 6 degrees of freedom for industrial test and assembly of photonic integrated circuits (PIC).

Photonic integrated circuits (PIC) are on the verge of significant disruption through the unlocking of novel applications. This success largely relies on advanced wafer-level miniaturized photonic ...

PI’s latest 6-axis alignment system is available in one-sided and double-sided configurations, upright for PIC assembly or inverted, for photonics wafer-probing applications. PI’s F-713 6-axis ...

Photonic integrated circuits that utilize photons to process information at the speed of light. Active areas of research include: Silicon Photonics, Quantum Integrated Photonics (Quantum Computing, ...

A major focus at this year’s OFC will be on the emerging photonic technologies required to enable large-scale generative AI networks. Optical interconnects based on ...

Photonic integrated circuits (PICs) are on the verge of significant disruption by enabling novel applications. This success largely relies on wafer-level miniaturized photonic device fabrication, ...

The F-712 has been a trusted solution for a range of photonics alignment tasks, from fiber array alignment to micro-optics positioning and photonic integrated circuit testing. Its proven design ...

a. Illustration of a TPL voxel located at the focal spot of a laser beam. b. Photonic wire bond. c. Freeform micro-optics. d. Mechanical alignment structure. a. The classical point-by-point exposure.