Fault Tolerant Quantum Computation with Very High Threshold for Loss Errors

S. D. Barrett, Thomas M. Stace

Type: Article

Publication Date: 2010-11-09

Citations: 149

DOI: https://doi.org/10.1103/physrevlett.105.200502

Abstract

Many proposals for fault tolerant quantum computation (FTQC) suffer detectable loss processes. Here we show that topological FTQC schemes, which are known to have high error thresholds, are also extremely robust against losses. We demonstrate that these schemes tolerate loss rates up to 24.9%, determined by bond percolation on a cubic lattice. Our numerical results show that these schemes retain good performance when loss and computational errors are simultaneously present.

Locations

Physical Review Letters - View
arXiv (Cornell University) - View - PDF
PubMed - View
DataCite API - View

Similar Works

Action	Title	Year	Authors
+ PDF Chat	Thresholds for Topological Codes in the Presence of Loss	2009	Thomas M. Stace S. D. Barrett Andrew C. Doherty
+ PDF Chat	Twins Percolation for Qubit Losses in Topological Color Codes	2018	Davide Vodola David Amaro M. A. Martín-Delgado Markus Müller
+ PDF Chat	Fault-tolerant quantum computation with nondeterministic entangling gates	2018	James M. Auger Hussain Anwar Mercedes Gimeno-Segovia Thomas M. Stace Dan E. Browne
+ PDF Chat	Analytical percolation theory for topological color codes under qubit loss	2020	David Amaro Jemma Bennett Davide Vodola Markus Müller
+	Fault-Tolerant Quantum Computation	2007	Daniel Gottesman
+	Fault-tolerant quantum computation by hybrid qubits with bosonic cat-code and single photons	2024	Jaehak Lee Nuri Kang Seok-Hyung Lee Hyunseok Jeong Liang Jiang Seung-Woo Lee
+ PDF Chat	Efficient fault-tolerant quantum computing	1999	Andrew Steane
+ PDF Chat	Fault Tolerant Quantum Computation with Nondeterministic Gates	2010	Ying Li S. D. Barrett Thomas M. Stace Simon C. Benjamin
+	No-signaling topological quantum computation in intelligent environment	2012	Tomoyuki Morimae
+	Fault-tolerant complexes	2023	H. Bombin Christopher Dawson Terry Farrelly Ye-Hua Liu Naomi Nickerson Mihir Pant Fernando Pastawski Sam Roberts
+ PDF Chat	Highly photon-loss-tolerant quantum computing using hybrid qubits	2021	S. Omkar Yong Siah Teo Seung-Woo Lee Hyunseok Jeong
+ PDF Chat	Upper bound for loss in practical topological-cluster-state quantum computing	2014	Adam C. Whiteside Austin G. Fowler
+	Topological Cluster State Computation with Photons	2008	Simon J. Devitt Austin G. Fowler Ashley M. Stephens Andrew D. Greentree Lloyd C. L. Hollenberg William J. Munro Kae Nemoto
+ PDF Chat	Fault-Tolerant Qubit from a Constant Number of Components	2021	Kianna Wan Soonwon Choi Isaac H. Kim Noah Shutty Patrick Hayden
+	Fault-tolerant qubit from a constant number of components	2020	Kianna Wan Soonwon Choi Isaac H. Kim Noah Shutty Patrick Hayden
+ PDF Chat	Stability of topologically-protected quantum computing proposals as seen through spin glasses	2013	Helmut G. Katzgraber Ruben S. Andrist
+ PDF Chat	Error correction and degeneracy in surface codes suffering loss	2010	Thomas M. Stace S. D. Barrett
+	Quantum Error Correction: Noise-adapted Techniques and Applications	2022	Akshaya Jayashankar Prabha Mandayam
+	Efficient algorithms for simulating percolation in photonic fusion networks	2023	Matthias C. Löbl Stefano Paesani Anders S. Sørensen
+	A Small Quantum Computer is Needed to Optimize Fault-Tolerant Protocols	2017	Pavithran Iyer David Poulin

Works That Cite This (123)

Action	Title	Year	Authors
+ PDF Chat	Cluster State Generation with Spin-Orbit Coupled Fermionic Atoms in Optical Lattices	2019	Mikhail Mamaev R. Blatt Jun Ye Ana María Rey
+ PDF Chat	Transitions in the quantum computational power	2014	Tzu-Chieh Wei Ying Li L. C. Kwek
+ PDF Chat	Cat Codes with Optimal Decoherence Suppression for a Lossy Bosonic Channel	2017	Linshu Li Chang‐Ling Zou Victor V. Albert Sreraman Muralidharan S. M. Girvin Liang Jiang
+ PDF Chat	Fault-tolerant protection of near-term trapped-ion topological qubits under realistic noise sources	2019	A. Bermúdez Xiaosi Xu Marco Gutiérrez Simon C. Benjamin Markus Müller
+ PDF Chat	Parallelized quantum error correction with fracton topological codes	2020	Benjamin J. Brown Dominic J. Williamson
+ PDF Chat	Topologically protected measurement-based quantum computation on the thermal state of a nearest-neighbor two-body Hamiltonian with spin-3/2 particles	2012	Keisuke Fujii Tomoyuki Morimae
+ PDF Chat	Error and loss tolerances of surface codes with general lattice structures	2012	Keisuke Fujii Yuuki Tokunaga
+ PDF Chat	Fault-tolerance thresholds for the surface code with fabrication errors	2017	James M. Auger Hussain Anwar Mercedes Gimeno-Segovia Thomas M. Stace Dan E. Browne
+ PDF Chat	Blind topological measurement-based quantum computation	2012	Tomoyuki Morimae Keisuke Fujii
+ PDF Chat	Logical error rate scaling of the toric code	2014	Fern H. E. Watson S. D. Barrett

Works Cited by This (21)

Action	Title	Year	Authors
+ PDF Chat	Reliable quantum computers	1998	John Preskill
+ PDF Chat	A fault-tolerant one-way quantum computer	2006	Robert Raussendorf Jim Harrington Kovid Goyal
+ PDF Chat	Precise determination of the bond percolation thresholds and finite-size scaling corrections for the sc, fcc, and bcc lattices	1998	Christian D. Lorenz Robert M. Ziff
+ PDF Chat	Long-range quantum entanglement in noisy cluster states	2005	Robert Raussendorf Sergey Bravyi Jim Harrington
+ PDF Chat	Quantum computing with realistically noisy devices	2005	Emanuel Knill
+ PDF Chat	Noise Thresholds for Optical Quantum Computers	2006	Christopher M. Dawson Henry L. Haselgrove Michael A. Nielsen
+ PDF Chat	Thresholds for Topological Codes in the Presence of Loss	2009	Thomas M. Stace S. D. Barrett Andrew C. Doherty
+ PDF Chat	Scalability of quantum computation with addressable optical lattices	2008	Travis Roland Beals Jiří Vala K. Birgitta Whaley
+ PDF Chat	Scalable quantum computing with atomic ensembles	2010	S. D. Barrett Peter P. Rohde Thomas M. Stace
+ PDF Chat	Fault-Tolerant Quantum Computation with High Threshold in Two Dimensions	2007	Robert Raussendorf Jim Harrington