Metrology

Laser light has unique properties for measuring distances, movements, areas etc as the wavelength and other properties of the laser are well controlled. To optimally benefit from this potential, we believe laser photonics should be more simple, robust, compact and cost effective. We enable this potential with our modules based on broadband (400-2300nm) Photonic Integrated Circuits.

LXI designs and manufactures customized modules for photonic OEMs and System integrators. The PIC modules are based on our photonic integration technology and can manipulate laser light by splitting beams, combining beams, controlling intensity, phase, mode size and input- output configurations.

Our PIC modules are used in different types of products in Metrology applications, like Laser Interferometry (homodyne, heterodyne and multiwavelength), OCT, and spectrometry

In many applications for optical metrology one or more lasers are used to measure distances, surfaces or motion. Typically also the position and spot size of the light at the substrate or target is subjected to tight specifications. These systems are currently built using discrete optical components. Our PICs are beneficial for these applications as they increase robustness, reliability and compactness and open the route to new methods of measuring.

Life Science

At LXI we recognize the marvelous potential of laser light for Life Science applications to improve life and environment. To optimally materialize this potential, we believe laser photonics should be more simple, robust, compact and cost effective. We enable this potential with our modules based on Photonic Integrated Circuits for visible and NIR light.

LXI designs and manufactures customized modules for photonic OEMs and System integrators. The PIC modules are based on our photonic integration technology and can manipulate laser light by splitting beams, combining beams, controlling intensity, phase, mode size and input- output configurations.

Our PIC modules are used in different types of products in Life Science applications, like confocal microscopy, flow cytometry, OCT, endoscopy, spectroscopy, optical biosensors, Foodsorting, Flowcytometry molecular diagnostics

In several Life Sciences applications multiple laser sources are being used. Typically also the position and spot size of the light at the substrate or target is subjected to tight specifications. These systems are currently built using discrete optical components. Our PICs are beneficial for these applications as they increase robustness, reliability and compactness in combination with lower system costs.

Telecom/Datacom

Photonics and (fiber) optics have driven Telecom and Datacom applications into the high speed digital gateway we know today. To enable the future of tomorrow’s networks, we believe more optical function should be integrated allowing new advanced methods without added complexity and cost. We enable this potential with our modules based on broadband (400-2300nm) Photonic Integrated Circuits.

LXI designs and manufactures customized modules for photonic OEMs and System integrators. The PIC modules are based on our photonic integration technology and can manipulate laser light by splitting beams, combining beams, controlling intensity, phase, mode size and input- output configurations.

Our PIC modules are used in different types of products in Telecom and Datacom applications, like FttH splitters, coherent communication systems and 5G wireless applications (microwave photonics).

In many Telecom and Datacom applications one or more lasers are to transport broadband digital or analog signals over long distances. These systems are currently built using discrete optical components. Our Photonic Integrated Modules are beneficial for these applications as they increase robustness, reliability and compactness and open the route to ever increasing bandwidth requirements.