Ultracold atoms, molecules and ions provide a unique playground to explore chemistry at
ultracold temperatures. In this Review, we discuss what makes these systems particularly …

Classical simulation of quantum dynamics plays an important role in our understanding of
quantum complexity, and in the development of quantum technologies. Compared to other …

We study experimentally and numerically the noisy evolution of multipartite entangled states,
focusing on superconducting qubit devices accessible via the cloud. We find that a valid …

We provide a brief review of the fundamentals of quantum computation and quantum error
correction for the participants of the first Quantum Information Knowledge (QuIK) workshop …

The neutral atom array has gained prominence in quantum computing for its scalability and
operation fidelity. Previous works focus on fixed atom arrays (FAAs) that require extensive …

The neutral atom array has gained prominence in quantum computing for its scalability and
operation fidelity. Previous works focus on\textit {fixed} atom arrays (FAA) that necessitate …

Quantum batteries are predicted to have the potential to outperform their classical
counterparts and are therefore an important element in the development of quantum …

Quantum loop and dimer models are archetypal examples of correlated systems with local
constraints. Obtaining generic solutions for these models is difficult due to the lack of …

Near-term quantum computing technologies grapple with huge complexity overheads,
hindering their ability to induce algorithms, necessitating engineering and scientific …

The emerging availability of quantum compute resources fosters the examination of its
exploitation possibilities in different scientific domains, like artificial intelligence …