The realization of Bose Einstein condensates (BEC) and quantum degenerate Fermi gases
with cold atoms has been a highlight of quantum physics during the past decade. Cold …

This paper reviews the recent theoretical and experimental advances in the study of ultra-
cold gases made of bosonic particles interacting via the long-range, anisotropic dipole …

Quantum walks provide a framework for designing quantum algorithms that is both intuitive
and universal. To leverage the computational power of these walks, it is important to be able …

Supersolid, an exotic quantum state of matter that consists of particles forming an
incompressible solid structure while simultaneously showing superfluidity of zero viscosity …

Abstract The Bose–Einstein condensate (BEC) is a fascinating state of matter predicted to
occur for particles obeying Bose statistics. Although the BEC has been observed with …

The analysis of the electronic properties of strained or lattice deformed graphene combines
ideas from classical condensed matter physics, soft matter, and geometrical aspects of …

The ongoing experimental and theoretical effort aimed at understanding nonclassical
rotational inertia in solid helium has sparked renewed interest in the supersolid phase of …

Over recent years, exciting developments in the field of ultracold atoms confined in optical
lattices have led to numerous theoretical proposals devoted to the quantum simulation of …

We study the quantum phases of hard-core bosonic polar molecules on a two-dimensional
square lattice interacting via repulsive dipole-dipole interactions. In the limit of small …

We present a platform for the simulation of quantum magnetism with full control of
interactions between pairs of spins at arbitrary distances in 1D and 2D lattices. In our …