English

A manufacturable platform for photonic quantum computing

Quantum Physics 2024-04-29 v1 Applied Physics Optics

Abstract

Whilst holding great promise for low noise, ease of operation and networking, useful photonic quantum computing has been precluded by the need for beyond-state-of-the-art components, manufactured by the millions. Here we introduce a manufacturable platform for quantum computing with photons. We benchmark a set of monolithically-integrated silicon photonics-based modules to generate, manipulate, network, and detect photonic qubits, demonstrating dual-rail photonic qubits with 99.98%±0.01%99.98\% \pm 0.01\% state preparation and measurement fidelity, Hong-Ou-Mandel quantum interference between independent photon sources with 99.50%±0.25%99.50\%\pm0.25\% visibility, two-qubit fusion with 99.22%±0.12%99.22\%\pm0.12\% fidelity, and a chip-to-chip qubit interconnect with 99.72%±0.04%99.72\%\pm0.04\% fidelity, not accounting for loss. In addition, we preview a selection of next generation technologies, demonstrating low-loss silicon nitride waveguides and components, fabrication-tolerant photon sources, high-efficiency photon-number-resolving detectors, low-loss chip-to-fiber coupling, and barium titanate electro-optic phase shifters.

Keywords

Cite

@article{arxiv.2404.17570,
  title  = {A manufacturable platform for photonic quantum computing},
  author = {Koen Alexander and Andrea Bahgat and Avishai Benyamini and Dylan Black and Damien Bonneau and Stanley Burgos and Ben Burridge and Geoff Campbell and Gabriel Catalano and Alex Ceballos and Chia-Ming Chang and CJ Chung and Fariba Danesh and Tom Dauer and Michael Davis and Eric Dudley and Ping Er-Xuan and Josep Fargas and Alessandro Farsi and Colleen Fenrich and Jonathan Frazer and Masaya Fukami and Yogeeswaran Ganesan and Gary Gibson and Mercedes Gimeno-Segovia and Sebastian Goeldi and Patrick Goley and Ryan Haislmaier and Sami Halimi and Paul Hansen and Sam Hardy and Jason Horng and Matthew House and Hong Hu and Mehdi Jadidi and Henrik Johansson and Thomas Jones and Vimal Kamineni and Nicholas Kelez and Ravi Koustuban and George Kovall and Peter Krogen and Nikhil Kumar and Yong Liang and Nicholas LiCausi and Dan Llewellyn and Kimberly Lokovic and Michael Lovelady and Vitor Manfrinato and Ann Melnichuk and Mario Souza and Gabriel Mendoza and Brad Moores and Shaunak Mukherjee and Joseph Munns and Francois-Xavier Musalem and Faraz Najafi and Jeremy L. O'Brien and J. Elliott Ortmann and Sunil Pai and Bryan Park and Hsuan-Tung Peng and Nicholas Penthorn and Brennan Peterson and Matt Poush and Geoff J. Pryde and Tarun Ramprasad and Gareth Ray and Angelita Rodriguez and Brian Roxworthy and Terry Rudolph and Dylan J. Saunders and Pete Shadbolt and Deesha Shah and Hyungki Shin and Jake Smith and Ben Sohn and Young-Ik Sohn and Gyeongho Son and Chris Sparrow and Matteo Staffaroni and Camille Stavrakas and Vijay Sukumaran and Davide Tamborini and Mark G. Thompson and Khanh Tran and Mark Triplet and Maryann Tung and Alexey Vert and Mihai D. Vidrighin and Ilya Vorobeichik and Peter Weigel and Mathhew Wingert and Jamie Wooding and Xinran Zhou},
  journal= {arXiv preprint arXiv:2404.17570},
  year   = {2024}
}

Comments

8 pages, 5 figures

R2 v1 2026-06-28T16:08:00.186Z