After many years of development of the basic tools, quantum simulation with ultracold atoms
has now reached the level of maturity at which it can be used to investigate complex …

We present a review of quantum computation with neutral atom qubits. After an overview of
architectural options and approaches to preparing large qubit arrays we examine Rydberg …

The ability to control and tune interactions in ultracold atomic gases has paved the way for
the realization of new phases of matter. So far, experiments have achieved a high degree of …

We demonstrate three-dimensional trapping of individual Rydberg atoms in holographic
optical bottle beam traps. Starting with cold, ground-state Rb 87 atoms held in standard …

The enormous experimental progress in atomic, molecular, and optical (AMO) physics
during the last decades allows us nowadays to isolate single, a few or even many-body …

Rydberg-atom arrays are a leading platform for quantum computing and simulation,
combining strong interactions with highly coherent operations and flexible geometries …

The generation, distribution and control of entanglement across quantum networks is one of
the main goals of quantum information science,. In previous studies, hyperfine ground states …

Neutral atom qubits with Rydberg-mediated interactions are a leading platform for
developing large-scale coherent quantum systems. In the majority of experiments to date …

We theoretically demonstrate a viable approach to spin squeezing in optical lattice clocks
via optical dressing of one clock state to a highly excited Rydberg state, generating …

We propose a nonadiabatic non-Abelian geometric quantum operation scheme to realize
universal quantum computation with mesoscopic Rydberg atoms. A single control atom …