As disorder strength increases in quantum many-body systems a new phase of matter, the
so-called many-body localization, emerges across the whole spectrum. This transition is …

Strong long-range interaction leads to localization in a closed quantum system without
disorders. Employing the exact diagonalization method, I numerically investigate …

Long-range hoppings in quantum disordered systems are known to yield quantum
multifractality, the features of which can go beyond the characteristic properties associated …

The fate of many-body localization in long-range interacting systems is not fully settled. For
instance, the phase boundary between ergodic and many-body localized regimes is still …

A many-body interacting system of classical kicked rotor serves as a prototypical model for
studying Floquet heating dynamics. Having established the fact that this system exhibits a …

There is a growing interest in applying different external potentials other than the
conventional uniform disorder for inhibiting thermalization and realizing the many-body …

We study the quantum thermalization and information scrambling dynamics of an
experimentally realizable quantum spin model with homogeneous XX-type all-to-all …

Disordered quantum systems undergoing a many-body localization (MBL) transition fail to
reach thermal equilibrium under their own dynamics. Distinguishing between asymptotically …

Pair localization in one-dimensional quasicrystals with nearest-neighbor hopping is
independent of whether short-range interactions are repulsive or attractive. We numerically …

Complexity plays a very important part in quantum computing and simulation where it acts
as a measure of the minimal number of gates that are required to implement a unitary circuit …