The integration of devices and systems on chip is one of the most important challenges and opportunities faced by the quantum photonics community today. The road towards future quantum chips starts with the choice of underlying materials. We will review the most prominent material systems used in quantum photonics. We will focus on material properties and their immediate consequences for the design of quantum processors and quantum communication links. In particular, we will highlight the applications of plasmonics and novel plasmonic materials for the on-chip integration of quantum photonic circuits.

Optical Society of America (OSA) Purdue University Student Chapter, SPIE Purdue University Student Chapter, Nanotechnology Student Advisory Council (NSAC), Graduate Student Organization Grant Allocation (GSOGA), Discovery Park, Birck Nanotechnogy Center

Researchers should cite this work as follows:

• Mikhail Shalaginov (2017), "Material Platforms for Integrated Quantum Photonics," https://nanohub.org/resources/26422.

  BibTex | EndNote