Multiphoton interference reveals strictly nonclassical phenomena. Its applications range
from fundamental tests of quantum mechanics to photonic quantum information processing …

We review recent developments in the physics of ultracold atomic and molecular gases in
optical lattices. Such systems are nearly perfect realisations of various kinds of Hubbard …

We present a protocol which allows a client to have a server carry out a quantum
computation for her such that the client's inputs, outputs and computation remain perfectly …

We prove a new version of the quantum threshold theorem that applies to concatenation of a
quantum code that corrects only one error, and we use this theorem to derive a rigorous …

In recent years, research in quantum computing has largely focused on two approaches:
near-term intermediate-scale quantum (NISQ) computing and future fault-tolerant quantum …

The recognition of the key role entanglement plays in the understanding of the radical
departure of quantum from classical physics came historically remarkably late. In the early …

This article is a short introduction to and review of the cluster-state model of quantum
computation, in which coherent quantum information processing is accomplished via a …

A long-standing open question about Gaussian continuous-variable cluster states is whether
they enable fault-tolerant measurement-based quantum computation. The answer is yes …

We present a method to convert certain single photon sources into devices capable of
emitting large strings of photonic cluster state in a controlled and pulsed “on-demand” …

We demonstrate phase super-resolution in the absence of entangled states. The key insight
is to use the inherent time-reversal symmetry of quantum mechanics: our theory shows that it …