Understanding topological matter is an outstanding challenge across several disciplines of
physical science. Programmable quantum simulators have emerged as a powerful approach …

The nonequilibrium dynamics of quantum spin models is a most challenging topic, due to
the exponentiality of Hilbert space, and it is central to the understanding of the many-body …

Whether long-range interactions allow for a form of causality in nonrelativistic quantum
models remains an open question with far-reaching implications for the propagation of …

We introduce a novel experimental approach to probe many-body quantum systems by
developing a protocol to measure generalized temporal entropies. We demonstrate that the …

We use a Rydberg quantum simulator to demonstrate a new form of spectroscopy, called
quench spectroscopy, which probes the low-energy excitations of a many-body system. We …

In a recent numerical study by Haldar et al.[Phys. Rev. X 11, 031062] it was shown that
signatures of proximate quantum critical points can be observed at early and intermediate …

Quench spectroscopy is a relatively new method which enables the investigation of spectral
properties of many-body quantum systems by monitoring the out-of-equilibrium dynamics of …

Entanglement is a central feature of many-body quantum systems and plays a unique role in
quantum phase transitions. In many cases, the entanglement spectrum, which represents …

The question of how the low-energy properties of disordered quantum systems may be
connected to exotic localization phenomena at high energy is a key open question in the …

The efficient probing of spectral features of quantum many-body systems is important for
characterising and understanding the structure and dynamics of quantum materials. In this …