Get the latest Science News and Discoveries

New 3D-printed microscale photonic lantern open opportunities for spatial mode multiplexing - EurekAlert


Optical waves propagating through air or multi-mode fiber can be patterned or decomposed using orthogonal spatial modes, with far-ranging applications in imaging, communication, and directed energy. Yet the systems that perform these wavefront manipulations are cumbersome and large, restricting their utilization to high-end applications. The development of a Free-Standing Microscale Photonic Lantern Spatial Mode (De-)Multiplexer using 3D Nanoprinting, as revealed by a recent study, marks a significant advancement in photonic technology. This spatial multiplexer, characterized by its compactness, minimal footprint, and ability to directly print on, and adhere to, photonic circuits, optical fibers, and optoelectronic elements as lasers and photodetectors, opens new opportunities in system integration and adoption of the technology in future high-capacity communication systems and demanding imaging modalities.

None

Get the Android app

Or read this on Eureka Alert

Read more on:

Photo of printed microscale

printed microscale

Photo of EurekAlert

EurekAlert

Photo of new 3d

new 3d

Related news:

News photo

Some countries could meet their total electricity needs from floating solar panels, research shows - EurekAlert

News photo

Wearable brain imaging gives clearest ever picture of children's developing brain - EurekAlert

News photo

5-minute test leads to better care for people with dementia in the primary care setting - EurekAlert