Nature Communications (Feb 2024)

General-purpose programmable photonic processor for advanced radiofrequency applications

  • Daniel Pérez-López,
  • Ana Gutierrez,
  • David Sánchez,
  • Aitor López-Hernández,
  • Mikel Gutierrez,
  • Erica Sánchez-Gomáriz,
  • Juan Fernández,
  • Alejandro Cruz,
  • Alberto Quirós,
  • Zhenyun Xie,
  • Jesús Benitez,
  • Nandor Bekesi,
  • Alejandro Santomé,
  • Diego Pérez-Galacho,
  • Prometheus DasMahapatra,
  • Andrés Macho,
  • José Capmany

DOI
https://doi.org/10.1038/s41467-024-45888-7
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 11

Abstract

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Abstract A general-purpose photonic processor can be built integrating a silicon photonic programmable core in a technology stack comprising an electronic monitoring and controlling layer and a software layer for resource control and programming. This processor can leverage the unique properties of photonics in terms of ultra-high bandwidth, high-speed operation, and low power consumption while operating in a complementary and synergistic way with electronic processors. These features are key in applications such as next-generation 5/6 G wireless systems where reconfigurable filtering, frequency conversion, arbitrary waveform generation, and beamforming are currently provided by microwave photonic subsystems that cannot be scaled down. Here we report the first general-purpose programmable processor with the remarkable capability to implement all the required basic functionalities of a microwave photonic system by suitable programming of its resources. The processor is fabricated in silicon photonics and incorporates the full photonic/electronic and software stack.