Rydberg atoms with principal quantum number n⪢ 1 have exaggerated atomic properties
including dipole-dipole interactions that scale as n 4 and radiative lifetimes that scale as n 3 …

Since the positive influences of defects on the performance of electroceramics were
discovered, investigations concerning on defects and aliovalent do** routes have grown …

Ultracold quantum gases offer a unique setting for quantum simulation of interacting many-
body systems. The high degree of controllability, the novel detection possibilities and the …

Quantum computers, though not yet available on the market, will revolutionize the future of
information processing. Quantum computers for special purposes like quantum simulators …

We review recent theoretical advances in cold atom physics concentrating on strongly
correlated cold atoms in optical lattices. We discuss recently developed quantum optical …

The Fermi-Hubbard model is a key concept in condensed matter physics and provides
crucial insights into electronic and magnetic properties of materials. Yet, the intricate nature …

We discuss a scheme to measure the many-body entanglement growth during quench
dynamics with bosonic atoms in optical lattices. By making use of a 1D or 2D setup in which …

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 …

Scalable, coherent many-body systems can enable the realization of previously unexplored
quantum phases and have the potential to exponentially speed up information processing …

We present a detailed analysis and design of a neutral atom quantum logic device based on
atoms in optical traps interacting via dipole-dipole coupling of Rydberg states. The dominant …