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Meter-Scale Long Connectorized Paper-like Polymer Waveguide Film for 100 Gbps Board-Level Optical Interconnects

Xu Liu1, Lin Ma1, Ying Shi1

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This summary is machine-generated.

Researchers developed meter-scale flexible polymer waveguide films for optical interconnects. These paper-like waveguides offer high bandwidth and low loss, enabling 100 Gbps data rates for compact, high-speed applications.

Keywords:
laser direct inscriptionoptical interconnectionsoptical waveguides

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Area of Science:

  • Photonics and Optical Engineering
  • Materials Science

Background:

  • Board-level optical interconnects are crucial for high-speed data transmission.
  • Existing solutions face challenges with length, flexibility, and integration.

Purpose of the Study:

  • To design and fabricate meter-scale flexible multimode polymer waveguide films.
  • To achieve a large bandwidth-length product (BLP) for board-level optical interconnects.
  • To demonstrate high-speed data transmission capabilities.

Main Methods:

  • Fabrication of meter-scale, paper-like flexible multimode polymer waveguide films.
  • Characterization of BLP, insertion loss, crosstalk, and bending loss.
  • Demonstration of 100 Gbps PAM4 transmission using VCSELs.

Main Results:

  • Achieved a BLP greater than 57.3 GHz·m at 850 nm.
  • Measured average insertion loss of 0.042 dB/cm with crosstalk below -46.4 dB.
  • Demonstrated low bending loss (<1 dB at 1 mm radius) and successful 100 Gbps transmission.

Conclusions:

  • Meter-scale flexible polymer waveguides offer excellent optical properties and high bandwidth.
  • These waveguides are ideal for high-speed, compact board-level optical interconnects.
  • The technology supports data rates of 100 Gbps and beyond.