Recent interest in developing fast spintronic devices and laser-controllable magnetic solids
has sparked tremendous experimental and theoretical efforts to understand and manipulate …

Recent years have seen many examples of how the strong spin-orbit coupling present in
iridates can stabilize new emergent states that are difficult or impossible to realize in more …

The temperonic crystal, a periodic structure with a unit cell made of two slabs sustaining
temperature wavelike oscillations on short timescales, is introduced. The complex-valued …

We present a theoretical method to generate a highly accurate time-independent
Hamiltonian governing the finite-time behavior of a time-periodic system. The method …

The nonequilibrium dynamics of strongly-correlated fermions in lattice systems have
attracted considerable interest in the condensed matter and ultracold atomic-gas …

We derive effective Floquet Hamiltonians for twisted bilayer graphene driven by circularly
polarized light in two different regimes beyond the weak-drive, high-frequency regime. First …

In order to account for non-Fourier heat transport, occurring on short time and length scales,
the often-praised Dual-Phase-Lag (DPL) model was conceived, introducing a causality …

The Fourier heat conduction model is valid for most macroscopic problems. However, it fails
when the wave nature of the heat propagation or the time lags become dominant and the …

Although ultrafast manipulation of magnetism holds great promise for new physical
phenomena and applications, targeting specific states is held back by our limited …

Understanding the mechanism of heat transfer in nanoscale devices remains one of the
greatest intellectual challenges in the field of thermal dynamics, by far the most relevant …