English

On-chip quantum interference between silicon photon-pair sources

Quantum Physics 2014-11-24 v3

Abstract

Large-scale integrated quantum photonic technologies will require the on-chip integration of identical photon sources with reconfigurable waveguide circuits. Relatively complex quantum circuits have already been demonstrated, but few studies acknowledge the pressing need to integrate photon sources and waveguide circuits together on-chip. A key step towards such large-scale quantum technologies is the integration of just two individual photon sources within a waveguide circuit, and the demonstration of high-visibility quantum interference between them. Here, we report a silicon-on-insulator device combining two four-wave mixing sources, in an interferometer with a reconfigurable phase shifter. We configure the device to create and manipulate two-colour (non-degenerate) or same-colour (degenerate), path-entangled or path-unentangled photon pairs. We observe up to 100.0+/-0.4% visibility quantum interference on-chip, and up to 95+/-4% off-chip. Our device removes the need for external photon sources, provides a path to increasing the complexity of quantum photonic circuits, and is a first step towards fully-integrated quantum technologies.

Keywords

Cite

@article{arxiv.1304.1490,
  title  = {On-chip quantum interference between silicon photon-pair sources},
  author = {Joshua W. Silverstone and Damien Bonneau and Kazuya Ohira and Nob Suzuki and Haruhiko Yoshida and Norio Iizuka and Mizunori Ezaki and Chandra M. Natarajan and Michael G. Tanner and Robert H. Hadfield and Val Zwiller and Graham D. Marshall and John G. Rarity and Jeremy L. O'Brien and Mark G. Thompson},
  journal= {arXiv preprint arXiv:1304.1490},
  year   = {2014}
}
R2 v1 2026-06-21T23:54:08.163Z