Towards Integrated Silicon Photonic Architectures For Quantum Information Processing

Download or read book Towards Integrated Silicon Photonic Architectures for Quantum Information Processing written by Uttara Chakraborty (S.M.) and published by . This book was released on 2019 with total page 69 pages. Available in PDF, EPUB and Kindle. Book excerpt: Silicon photonics is a highly-promising platform for on-chip quantum information processing. Linear optical quantum computing architectures necessitate the implementation of integrated single photon sources, passive and active optics, and single photon detectors. This thesis presents the development of a scalable, real-time feedback control protocol for stabilizing microring resonator frequencies in parallel with quantum computation using the same classical pump laser fields as are used to seed photon generation. The feedback protocol is applied to correct static and dynamic errors in silicon microring resonators due to fabrication variations and ambient fluctuations, and to demonstrate high-visibility two-photon quantum interference with photon pairs generated by spontaneous four wave mixing. Progress on a new interferometrically-coupled photon generation device for four-photon quantum interference is also presented. Finally, a new scheme is proposed for non-volatile phase shifters in large-scale photonic integrated circuits. The potential use of shape-memory materials for straining silicon waveguides to induce refractive index shifts is explored through finite-element simulations.