Quantum Error Correction & Fault Tolerance
19 papers for year 2012
Showing 1-12 of 19
A synthetic two-spin quantum bit: g-engineered exchange-coupled biradical designed for controlled-NOT gate operations.
Nakazawa S, Nishida S, Ise T, Yoshino T, Mori N, Rahimi RD, Sato K, Morita Y, Toyota K, Shiomi D, Kitagawa M, Hara H, Carl P, Höfer P, Takui T.
Blind topological measurement-based quantum computation.
Morimae T, Fujii K.
Composite pulses for robust universal control of singlet-triplet qubits.
Wang X, Bishop LS, Kestner JP, Barnes E, Sun K, Das Sarma S.
Efficient measurement of quantum gate error by interleaved randomized benchmarking.
Magesan E, Gambetta JM, Johnson BR, Ryan CA, Chow JM, Merkel ST, da Silva MP, Keefe GA, Rothwell MB, Ohki TA, Ketchen MB, Steffen M.
Efficient polar coding of quantum information.
Renes JM, Dupuis F, Renner R.
Experimental implementation of encoded logical qubit operations in a perfect quantum error correcting code.
Zhang J, Laflamme R, Suter D.
Experimental realization of a four-photon seven-qubit graph state for one-way quantum computation.
Lee SM, Park HS, Cho J, Kang Y, Lee JY, Kim H, Lee DH, Choi SK.
Heralded state preparation in a superconducting qubit.
Johnson JE, Macklin C, Slichter DH, Vijay R, Weingarten EB, Clarke J, Siddiqi I.
Initialization by measurement of a superconducting quantum bit circuit.
Ristè D, van Leeuwen JG, Ku HS, Lehnert KW, DiCarlo L.
Key ideas in quantum error correction.
Raussendorf R.
Optimally combining dynamical decoupling and quantum error correction
G. A. Paz-Silva, D. A. Lidar
Proof of finite surface code threshold for matching.
Fowler AG.