Floquet engineering, the control of quantum systems using periodic driving, is an old
concept in condensed matter physics dating back to ideas such as the inverse Faraday …

Over the last decade impressive progress has been made in the theoretical understanding
of transport properties of clean, one-dimensional quantum lattice systems. Many physically …

The study of nonequilibrium phenomena in correlated lattice systems has developed into
one of the most active and exciting branches of condensed matter physics. This research …

Resistive random access memories (ReRAM) form an emerging type of non‐volatile
memories, based on an electrically driven resistive switching (RS) of an active material. This …

One of today's most exciting research frontier and challenge in condensed matter physics is
known as Mottronics, whose goal is to incorporate strong correlation effects into the realm of …

Ultracold atoms confined by engineered magnetic or optical potentials are ideal to study
phenomena otherwise difficult to realize or probe in the solid state, thanks to the ability to …

Mott transitions induced by strong electric fields are receiving growing interest. Recent
theoretical proposals have focused on the Zener dielectric breakdown in Mott insulators …

Strong interactions, or correlations, between the d or f electrons in transition-metal oxides
lead to various types of metal–insulator transitions that can be triggered by external …

Doublon-hole pair production, which takes place during dielectric breakdown in a Mott
insulator subject to a strong laser or a static electric field, is studied in the one-dimensional …

Resistive switching—the current-and voltage-induced change of electrical resistance—is at
the core of memristive devices, which play an essential role in the emerging field of …