Error-protected qubits in a silicon photonic chip

Caterina Vigliar, Stefano Paesani, Yunhong Ding, Jeremy C. Adcock, Jianwei Wang, Sam Morley-Short, Davide Bacco, Leif K. Oxenløwe, Mark G. Thompson, John G. Rarity, Anthony Laing*

*Corresponding author for this work

Research output: Contribution to journalJournal articleResearchpeer-review

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Abstract

General-purpose quantum computers can, in principle, entangle a number of noisy physical qubits to realize composite qubits protected against errors. Architectures for measurement-based quantum computing intrinsically support error-protected qubits and are the most viable approach for constructing an all-photonic quantum computer. Here we propose and demonstrate an integrated silicon photonic scheme that both entangles multiple photons, and encodes multiple physical qubits on individual photons, to produce error-protected qubits. We realize reconfigurable graph states to compare several schemes with and without error-correction encodings and implement a range of quantum information processing tasks. We observe a success rate increase from 62.5% to 95.8% when running a phase-estimation algorithm without and with error protection, respectively. Finally, we realize hypergraph states, which are a generalized class of resource states that offer protection against correlated errors. Our results show how quantum error-correction encodings can be implemented with resource-efficient photonic architectures to improve the performance of quantum algorithms.

Original languageEnglish
JournalNature Physics
Volume17
Issue number10
Pages (from-to)1137-1143
ISSN1745-2473
DOIs
Publication statusPublished - Oct 2021

Bibliographical note

Funding Information:
We thank R. Santagati, A. E. Jones, J. F. Bulmer, R. Shaw, D. D. Roberts, J. F. Tasker, N. Maraviglia, J. W. Silverstone, W. A. Murray, Z. Raissi, C. Gogolin and P. Skrzypczyk for useful discussions and technical assistance. We acknowledge support from the Engineering and Physical Sciences Research Council (EPSRC), European Research Council (ERC) and European Commission (EC) funded grants PICQUE, BBOI, QUCHIP, QuPIC, QITBOX, VILLUM FONDEN, QUANPIC (ref. 00025298), the Center of Excellence, Denmark SPOC (ref DNRF123) and ERA-NET cofund initiatives QuantERA within the European Union’s Horizon 2020 research and innovation programme grant agreement 731473 (project SQUARE). We acknowledge support from the EPSRC Hubs in Quantum Computing and Simulation (EP/T001062/1) and Networked Quantum Information Technologies (EP/N509711/1). Fellowship support from EPSRC is acknowledged by A.L. (EP/N003470/1).

Publisher Copyright:
© 2021, The Author(s), under exclusive licence to Springer Nature Limited.

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