Papers

Nicolas P. D. Sawaya, M. Smelyanskiy, J. McClean +1 more·Feb 4, 2016

Calculating molecular energies is likely to be one of the first useful applications to achieve quantum supremacy, performing faster on a quantum than a classical computer. However, if future quantum devices are to produce accurate calculations, error...

M. Michael, M. Silveri, R. T. Brierley +4 more·Jan 29, 2016

We construct a new class of quantum error-correcting codes for a bosonic mode which are advantageous for applications in quantum memories, communication, and scalable computation. These 'binomial quantum codes' are formed from a finite superposition ...

F. Malinowski, F. Martins, Peter D. Nissen +8 more·Jan 25, 2016

Electron spins in gate-defined quantum dots provide a promising platform for quantum computation. In particular, spin-based quantum computing in gallium arsenide takes advantage of the high quality of semiconducting materials, reliability in fabricat...

Ronald J. Sadlier, T. Humble·Jan 23, 2016

Abstract Superdense coding promises increased classical capacity and communication security but this advantage may be undermined by noise in the quantum channel. We present a numerical study of how forward error correction (FEC) applied to the encode...

Cesar E. Pachon, Leonardo A. Pachon·Jul 16, 2013

Non-locality is one of the hallmarks of quantum mechanics and is responsible for paradigmatic features such as entanglement and the Aharonov-Bohm effect. Non-locality comes in two flavours: a \emph{kinematic} non-locality -- arising from the structur...

H. Barnum, E. Knill·Apr 23, 2000

We consider the problem of reversing quantum dynamics, with the goal of preserving an initial state's quantum entanglement or classical correlation with a reference system. We exhibit an approximate reversal operation, adapted to the initial density ...