The Jaynes–Cummings Model (JCM) has recently been receiving increased attention as
one of the simplest, yet intricately nonlinear, models of quantum physics. Emphasising the …

Laser-cooled and trapped atomic ions form an ideal standard for the simulation of interacting
quantum spin models. Effective spins are represented by appropriate internal energy levels …

The maximum speed with which information can propagate in a quantum many-body system
directly affects how quickly disparate parts of the system can become correlated,,, and how …

Dominating finite-range interactions in many-body systems can lead to intriguing self-
ordered phases of matter. For quantum magnets, Ising models with power-law interactions …

In recent years quantum simulation has made great strides, culminating in experiments that
existing supercomputers cannot easily simulate. Although this raises the possibility that …

Studying entanglement growth in quantum dynamics provides both insight into the
underlying microscopic processes and information about the complexity of the quantum …

We discuss how a lattice Schwinger model can be realized in a linear ion trap, allowing a
detailed study of the physics of Abelian lattice gauge theories related to one-dimensional …

We propose to use Ramsey interferometry and single-site addressability, available in
synthetic matter such as cold atoms or trapped ions, to measure real-space and time …

The physics of interacting integer-spin chains has been a topic of intense theoretical interest,
particularly in the context of symmetry-protected topological phases. However, there has not …

In this review, we present the ongoing developments in bridging the gap between
holography and experiments. To this end, we discuss information scrambling and models of …