Awesome Error Correction
Error Correction is one of the most active areas in Awesome Quantum Computing β 3,383 papers in this collection, evaluated on datasets like Bell-state, bivariate bicycle (BB) codes, transverse-field Ising model. A strong starting point is "Logic Gates At The Surface Code Threshold: Superconducting Qubits Poised For Fault-tolerant Quantum Computing".
Datasets & benchmarks
Key papers
- Logic Gates At The Surface Code Threshold: Superconducting Qubits Poised For Fault-tolerant Quantum Computing (2014)R. Barends, J. Kelly, A. Megrant, et al.23.73
- Security Of Quantum Key Distribution With Realistic Devices (2005)Xiongfeng Ma23.44
- Encoding A Qubit In An Oscillator (2000)Daniel Gottesman, Alexei Kitaev, John Preskill23.25
- Quantum Convolutional Neural Networks (2018)Iris Cong, Soonwon Choi, Mikhail D. Lukin23.21
- Multiple Particle Interference And Quantum Error Correction (1996)Andrew Steane22.91
- Quantum Error Correction For Quantum Memories (2013)Barbara M. Terhal22.72
- Logical Quantum Processor Based On Reconfigurable Atom Arrays (2023)Dolev Bluvstein, Simon J. Evered, Alexandra A. Geim, et al.22.36
- A Class Of Quantum Error-correcting Codes Saturating The Quantum Hamming Bound (1996)Daniel Gottesman22.31
- Characterizing Quantum Supremacy In Near-term Devices (2016)Sergio Boixo, Sergei V. Isakov, Vadim N. Smelyanskiy, et al.22.25
- Observation Of High Coherence In Josephson Junction Qubits Measured In A Three-dimensional Circuit QED Architecture (2011)Hanhee Paik, D. I. Schuster, Lev S. Bishop, et al.22.24
- Quantum Computation Over Continuous Variables (1998)Seth Lloyd, Samuel L. Braunstein22.22
- Suppressing Quantum Errors By Scaling A Surface Code Logical Qubit (2022)Rajeev Acharya, Igor Aleiner, Richard Allen, et al.22.21
- An Addressable Quantum Dot Qubit With Fault-tolerant Control Fidelity (2014)M. Veldhorst, J. C. C. Hwang, C. H. Yang, et al.21.94
- Reliable Quantum Computers (1997)John Preskill21.66
- State Preservation By Repetitive Error Detection In A Superconducting Quantum Circuit (2014)J. Kelly, R. Barends, A. G. Fowler, et al.21.58
- Extending The Computational Reach Of A Noisy Superconducting Quantum Processor (2018)Abhinav Kandala, Kristan Temme, Antonio D. Corcoles, et al.21.52
- High-fidelity Two-qubit Quantum Logic Gates Using Trapped Calcium-43 Ions (2014)C. J. Ballance, T. P. Harty, N. M. Linke, et al.21.22
- High-fidelity Quantum Logic Gates Using Trapped-ion Hyperfine Qubits (2015)C. J. Ballance, T. P. Harty, N. M. Linke, et al.21.22
- Simple Pulses For Elimination Of Leakage In Weakly Nonlinear Qubits (2009)F. Motzoi, J. M. Gambetta, P. Rebentrost, et al.21.17
- Towards Practical Quantum Variational Algorithms (2015)D. Wecker, M. B. Hastings, M. Troyer20.99
- Josephson-junction Qubits With Controlled Couplings (1998)Yuriy Makhlin, Gerd Schoen, Alexander Shnirman20.90
- Determining Eigenstates And Thermal States On A Quantum Computer Using Quantum Imaginary Time Evolution (2019)Mario Motta, Chong Sun, Adrian Teck Keng Tan, et al.20.89
- Quantum Error Correction And Orthogonal Geometry (1996)A. R. Calderbank, E. M Rains, P. W. Shor, et al.20.86
- Quantum Optimization Using Variational Algorithms On Near-term Quantum Devices (2017)Nikolaj Moll, Panagiotis Barkoutsos, Lev S. Bishop, et al.20.84
- Realizing Repeated Quantum Error Correction In A Distance-three Surface Code (2021)Sebastian Krinner, Nathan Lacroix, Ants Remm, et al.20.80
- Quantum Error Correction For Beginners (2009)Simon J. Devitt, Kae Nemoto, William J. Munro20.50
- Quantum Error Correction In A Solid-state Hybrid Spin Register (2013)G. Waldherr, Y. Wang, S. Zaiser, et al.20.50
- Experimental Demonstration Of Memory-enhanced Quantum Communication (2019)Mihir K. Bhaskar, Ralf Riedinger, Bartholomeus MacHielse, et al.20.46
- Quantum Data Processing And Error Correction (1996)Benjamin Schumacher, M. A. Nielsen20.41
- Efficient Z-gates For Quantum Computing (2016)David C. McKay, Christopher J. Wood, Sarah Sheldon, et al.20.26
- Preparation And Measurement Of Three-qubit Entanglement In A Superconducting Circuit (2010)L. Dicarlo, M. D. Reed, L. Sun, et al.20.23
- Superconducting Qubit In Waveguide Cavity With Coherence Time Approaching 0.1ms (2012)Chad Rigetti, Stefano Poletto, Jay M. Gambetta, et al.20.13
- Quantum Computing With Neutral Atoms (1999)H. -J. Briegel, T. Calarco, D. Jaksch, et al.19.96
- Towards Fault-tolerant Quantum Computing With Trapped Ions (2008)J. Benhelm, G. Kirchmair, C. F. Roos, et al.19.86
- Fast Universal Quantum Control Above The Fault-tolerance Threshold In Silicon (2021)Akito Noiri, Kenta Takeda, Takashi Nakajima, et al.19.69
- The Kerr-cat Qubit: Stabilization, Readout, And Gates (2019)Alexander Grimm, Nicholas E. Frattini, Shruti Puri, et al.19.61
- Quantum Error Correction Of A Qubit Encoded In Grid States Of An Oscillator (2019)P. Campagne-Ibarcq, A. Eickbusch, S. Touzard, et al.19.60
- Detecting Arbitrary Quantum Errors Via Stabilizer Measurements On A Sublattice Of The Surface Code (2014)A. D. CΓ³rcoles, Easwar Magesan, Srikanth J. Srinivasan, et al.19.55
- High Threshold Universal Quantum Computation On The Surface Code (2008)Austin G. Fowler, Ashley M. Stephens, Peter Groszkowski19.48
- Quantum Error Correction In Scrambling Dynamics And Measurement-induced Phase Transition (2019)Soonwon Choi, Yimu Bao, Xiao-Liang Qi, et al.19.37
- Universal Control And Error Correction In Multi-qubit Spin Registers In Diamond (2013)T. H. Taminiau, J. Cramer, T. van Der Sar, et al.19.34
- Realizing Topologically Ordered States On A Quantum Processor (2021)K. J. Satzinger, Y. Liu, A. Smith, et al.19.26
- A Simple Quantum Computer (1995)I. L. Chuang, Y. Yamamoto19.23
- Silicon CMOS Architecture For A Spin-based Quantum Computer (2016)M. Veldhorst, H. G. J. Eenink, C. H. Yang, et al.19.23
- Sending Or Not Sending: Twin-field Quantum Key Distribution With Large Misalignment Error (2018)Xiang-Bin Wang, Zong-Wen Yu, Xiao-Long Hu19.19
- Fast Scalable State Measurement With Superconducting Qubits (2014)Daniel Sank, Evan Jeffrey, J. Y. Mutus, et al.19.13
- A Game Of Surface Codes: Large-scale Quantum Computing With Lattice Surgery (2018)Daniel Litinski19.10
- Real-time Quantum Error Correction Beyond Break-even (2022)V. V. Sivak, A. Eickbusch, B. Royer, et al.19.09
- Implementation Of A Toffoli Gate With Superconducting Circuits (2011)Arkady Fedorov, Lars Steffen, Matthias Baur, et al.19.07
- Fidelity Benchmarks For Two-qubit Gates In Silicon (2018)W. Huang, C. H. Yang, K. W. Chan, et al.19.01
- Quantum Error Correction: An Introductory Guide (2019)Joschka Roffe18.91
- Exponential Suppression Of Bit Or Phase Flip Errors With Repetitive Error Correction (2021)Zijun Chen, Kevin J. Satzinger, Juan Atalaya, et al.18.85
- Stabilizing Entanglement Autonomously Between Two Superconducting Qubits (2013)S. Shankar, M. Hatridge, Z. Leghtas, et al.18.77
- Sparse Graph Codes For Quantum Error-correction (2003)David J. C. MacKay, Graeme Mitchison, Paul L. McFadden18.75
- Resilient Quantum Computation: Error Models And Thresholds (1997)Emanuel Knill, Raymond Laflamme, Wojciech H. Zurek18.74
- Fault-tolerant Measurement-based Quantum Computing With Continuous-variable Cluster States (2013)Nicolas C. Menicucci18.74
- New Class Of Quantum Error-correcting Codes For A Bosonic Mode (2016)Marios H. Michael, Matti Silveri, R. T. Brierley, et al.18.72
- Complete Universal Quantum Gate Set Approaching Fault-tolerant Thresholds With Superconducting Qubits (2012)Jerry M. Chow, Jay M. Gambetta, A. D. Corcoles, et al.18.64
- Universal Fault-tolerant Computation On Decoherence-free Subspaces (1999)Dave Bacon, Julia Kempe, Daniel A. Lidar, et al.18.56
- Superconducting Quantum Computing: A Review (2020)He-Liang Huang, Dachao Wu, Daojin Fan, et al.18.55