Add to ORKGSelf-correcting quantum memories demonstrate robust properties that can be exploited to improve active quantum error-correction protocols. Here we propose a cellular automaton decoder for a variation of the color code where the bases of the physical qubits are locally rotated, which we call the XYZ color code. The local transformation means our decoder demonstrates key properties of a two-dimensional fractal code if the noise acting on the system is infinitely biased towards dephasing, namely, no string-like logical operators. As such, in the high-bias limit, our local decoder reproduces the behavior of a partially self-correcting memory. At low error rates, our simulations show that the memory time diverges polynomially with system size wi...
In this thesis we present three main contributions to the field of topological quantum error correct...
International audienceA quantum system interacts with its environment, if ever so slightly, no matte...
A promising approach to overcome decoherence in quantum computing schemes is to perform active quant...
We introduce a new framework for constructing topological quantum memories, by recasting error recov...
Active error decoding and correction of topological quantum codes—in particular the toric code—remai...
We propose an error correction procedure based on a cellular automaton, the sweep rule, which is app...
We propose a new cellular automaton (CA), the sweep rule, which generalizes Toom’s rule to any local...
Fault-tolerant quantum computation relies on scaling up quantum error correcting codes in order to s...
Active quantum error correction on topological codes is one of the most promising routes to long-ter...
Thesis (Ph.D.)--University of Washington, 2015This thesis presents a model of self-correcting quantu...
Recently, a class of fractal surface codes (FSCs), has been constructed on fractal lattices with Hau...
A quantum computer needs the assistance of a classical algorithm to detect and identify errors that ...
Hard-decision renormalization group (HDRG) decoders are an important class of decoding algorithms fo...
Implementing algorithms on a fault-tolerant quantum computer will require fast decoding throughput a...
We study entanglement fluctuations and quantum error correction in the weakly-monitored volume-law p...
In this thesis we present three main contributions to the field of topological quantum error correct...
International audienceA quantum system interacts with its environment, if ever so slightly, no matte...
A promising approach to overcome decoherence in quantum computing schemes is to perform active quant...
We introduce a new framework for constructing topological quantum memories, by recasting error recov...
Active error decoding and correction of topological quantum codes—in particular the toric code—remai...
We propose an error correction procedure based on a cellular automaton, the sweep rule, which is app...
We propose a new cellular automaton (CA), the sweep rule, which generalizes Toom’s rule to any local...
Fault-tolerant quantum computation relies on scaling up quantum error correcting codes in order to s...
Active quantum error correction on topological codes is one of the most promising routes to long-ter...
Thesis (Ph.D.)--University of Washington, 2015This thesis presents a model of self-correcting quantu...
Recently, a class of fractal surface codes (FSCs), has been constructed on fractal lattices with Hau...
A quantum computer needs the assistance of a classical algorithm to detect and identify errors that ...
Hard-decision renormalization group (HDRG) decoders are an important class of decoding algorithms fo...
Implementing algorithms on a fault-tolerant quantum computer will require fast decoding throughput a...
We study entanglement fluctuations and quantum error correction in the weakly-monitored volume-law p...
In this thesis we present three main contributions to the field of topological quantum error correct...
International audienceA quantum system interacts with its environment, if ever so slightly, no matte...
A promising approach to overcome decoherence in quantum computing schemes is to perform active quant...