Ultrafast Laser Inscription of a 121-Waveguide Fan-Out for Astrophotonics

TL;DR

This paper demonstrates the fabrication of a 121-waveguide fan-out device using ultrafast laser inscription, capable of reformatting multicore fiber outputs into linear arrays with potential applications in astrophotonics.

Contribution

It introduces a novel 3D waveguide fan-out device fabricated via ultrafast laser inscription for efficient fiber output reformatting in astrophotonics.

Findings

Achieved a prototype with 121 waveguides for fiber reformatting.

Demonstrated a throughput loss of 7.0 dB with current coupling.

Projected a reduced loss of 1.7 dB with perfect coupling.

Abstract

Using ultrafast laser inscription, we report the fabrication of a prototype three-dimensional 121-waveguide fan-out device capable of reformatting the output of a 120 core multicore fiber (MCF) into a one-dimensional linear array. When used in conjunction with an actual MCF, we demonstrate that the reformatting function using this prototype would result in an overall throughput loss of approximately 7.0 dB. However, if perfect coupling from the MCF into the fan-out could be achieved, the reformatting function would result in an overall loss of only approximately 1.7 dB. With adequate development, similar devices could efficiently reformat the output of so-called "photonic lanterns" fabricated using highly multicore fibers.