The investigations of the interconnection between micro-and macroscopic properties of
materials hosting noncollinear antiferromagnetic ground states are challenging. These …

Nonlinear optics, a critical branch of modern optics, presents unique potential in the study of
two-dimensional (2D) magnetic materials. These materials, characterized by their ultra-thin …

The one-and three-band Hubbard models which describe the electronic structure of
cuprates indicate very different values of effective electronic parameters, such as the on-site …

According to previous theoretical work, the binary oxide CuO can become a room-
temperature multiferroic via tuning of the superexchange interactions by application of …

Well designed and optimized epitaxial heterostructures lie at the foundation of materials
development for photovoltaic, photocatalytic, and photoelectrochemistry applications …

Well designed and optimized epitaxial heterostructures lie at the foundation of materials
development for photovoltaic, photocatalytic, and photoelectrochemistry applications …

CuO, known to be multiferroic (MF) from TL= 213 K to TN= 230 K at ambient pressure, has
been the subject of debates about its ability to exhibit multiferroicity at room temperature …

High-symmetry rocksalt type tetragonal CuO (T-CuO) does not exist in bulk but can be
synthesized via thin film epitaxy limited to a few unit cells (3, 4) thick and above which it …

Noncollinear magnetic order arises for various reasons in several magnetic systems and
exhibits interesting spin dynamics. Despite its ubiquitous presence, little is known of how …

We report measurements of the low-temperature (5 K≤ T≤ 300 K) thermal conductivity (κ)
of single-crystal CuO along its main symmetry directions. The influence of the …