Applied Sciences (Jan 2019)

A Versatile Silicon-Silicon Nitride Photonics Platform for Enhanced Functionalities and Applications

  • Quentin Wilmart,
  • Houssein El Dirani,
  • Nicola Tyler,
  • Daivid Fowler,
  • Stéphane Malhouitre,
  • Stéphanie Garcia,
  • Marco Casale,
  • Sébastien Kerdiles,
  • Karim Hassan,
  • Christelle Monat,
  • Xavier Letartre,
  • Ayman Kamel,
  • Minhao Pu,
  • Kresten Yvind,
  • Leif Katsuo Oxenløwe,
  • Wilfried Rabaud,
  • Corrado Sciancalepore,
  • Bertrand Szelag,
  • Ségolène Olivier

DOI
https://doi.org/10.3390/app9020255
Journal volume & issue
Vol. 9, no. 2
p. 255

Abstract

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Silicon photonics is one of the most prominent technology platforms for integrated photonics and can support a wide variety of applications. As we move towards a mature industrial core technology, we present the integration of silicon nitride (SiN) material to extend the capabilities of our silicon photonics platform. Depending on the application being targeted, we have developed several integration strategies for the incorporation of SiN. We present these processes, as well as key components for dedicated applications. In particular, we present the use of SiN for athermal multiplexing in optical transceivers for datacom applications, the nonlinear generation of frequency combs in SiN micro-resonators for ultra-high data rate transmission, spectroscopy or metrology applications and the use of SiN to realize optical phased arrays in the 800–1000 nm wavelength range for Light Detection And Ranging (LIDAR) applications. These functionalities are demonstrated using a 200 mm complementary metal-oxide-semiconductor (CMOS)-compatible pilot line, showing the versatility and scalability of the Si-SiN platform.

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