Orientational order is important for both liquid crystals and cell assemblies, and experimental and computational techniques ...

Seismic waves traveling through Earth's interior often propagate at different speeds depending on their direction, a ...

Magnetic anisotropy—the directional dependence of a material’s magnetic properties—lies at the heart of contemporary research in quantum materials. Governed by spin–orbit coupling and crystal symmetry ...

Fluorescence anisotropy is a measurement of how a molecule changes its orientation in space, with respect to the time between absorption and emission events. Absorption and emission are the core ...

At the Berlin synchrotron radiation source BESSY II, the largest magnetic anisotropy of a single molecule ever measured experimentally has been determined. The larger this anisotropy is, the better a ...

In recent years, van der Waals crystals have evolved from scientific curiosities into a versatile platform for exploring novel quantum phases and unconventional nanophotonic phenomena. Their layered ...

Anisotropy in action: artistic visualization of a propagating heat wave getting weaker as it approaches the top of the layered material, while spreading out in other directions. (Courtesy: ...

It is critical to always be aware of how material anisotropy might affect a design. A case in point is how anisotropy played a part in an individual getting injured when he tried to loosen the ...