Quantum Error Correction & Fault Tolerance
826 papers
Showing 637-648 of 826
Semiconductor-inspired design principles for superconducting quantum computing.
Shim YP, Tahan C.
2016
Nat Commun
Suppression of Dephasing by Qubit Motion in Superconducting Circuits.
Averin DV, Xu K, Zhong YP, Song C, Wang H, Han S.
2016
Phys Rev Lett
Thresholds for Universal Concatenated Quantum Codes.
Chamberland C, Jochym-O'Connor T, Laflamme R.
2016
Phys Rev Lett
A Framework for Approximating Qubit Unitaries
Vadym Kliuchnikov, Alex Bocharov, Martin Roetteler, Jon Yard
2015
arXiv preprint
A surface code quantum computer in silicon.
Hill CD, Peretz E, Hile SJ, House MG, Fuechsle M, Rogge S, Simmons MY, Hollenberg LC.
2015
Sci Adv
Autonomous Perceptron Neural Network Inspired from Quantum computing
M. Zidan, A. Sagheer, N. Metwally
2015
arXiv preprint
Blind Quantum Computation without Trusted Center
Shih-Min Hung, Tzonelih Hwang
2015
arXiv preprint
Characterizing Universal Gate Sets via Dihedral Benchmarking
Arnaud Carignan-Dugas, Joel J. Wallman, Joseph Emerson
2015
arXiv preprint
Coherent controlization using superconducting qubits.
Friis N, Melnikov AA, Kirchmair G, Briegel HJ.
2015
Sci Rep
Coherent quantum phase slip in two-component bosonic atomtronic circuits
A Gallemí, A Muñoz Mateo, R Mayol, M Guilleumas
2015
New Journal of Physics
Corrigendum: Fault-tolerant quantum computation with a soft-decision decoder for error correction and detection by teleportation.
Goto H, Uchikawa H.
2015
Sci Rep
Demonstration of a quantum error detection code using a square lattice of four superconducting qubits.
Córcoles AD, Magesan E, Srinivasan SJ, Cross AW, Steffen M, Gambetta JM, Chow JM.
2015
Nat Commun