From smartphones and data centers to electric vehicles and next-generation quantum systems, the technology that powers daily ...

Tiny strains in a crystal can cause electrons to behave in a surprising way that closely resembles a highly sought-after ...

but not when current is applied along a high-symmetry axis. Controlling spin–orbit torques by crystal symmetries in multilayer samples provides a new strategy for optimizing future magnetic ...

Flip or rotate these crystals all you want, and they still have only two distinct symmetries—one mirror plane and one axis of 180-degree rotation, or the symmetry that you can see by spinning a ...

In its normal state, AV 3 Sb 5 consists of a hexagonal crystal structure ... the two layers that reduces the six-fold rotational symmetry of the materials to two-fold when they enter the charge ...

Mathematically, such objects are described as exhibiting rotational symmetry, for being “invariant under rotation.” Such objects have a point (in 2-D) or an axis (in 3-D) about which an object ...

However, many obstacles severely hinder the development of solid-state HHG. Crystal symmetry, as one of the most important factors governing the process of solid-state HHG, is of urgently demands ...

Figure 1: A Fourier transform of an image obtained using scanning tunneling microscopy of electrons on the surface of a crystal of zirconium silicon sulfide, showing the symmetry of the electron ...