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

New 3D-printed microscale

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.

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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 , optical fibers, and optoelectronic elements such 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.

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