A team of researchers has developed a novel method for using cholesteric liquid crystals in optical microcavities. The ...

There is, for example, a face-centered cubic (FCC) arrangement, which experts call “austenite.” In this case, the iron atoms sit on the corners of the crystal lattice cube, and in addition, one atom ...

Crystalline structures such as body-centered cubic (BCC) and face-centered cubic (FCC) arrangements are known for their efficient use of space and load distribution. ... Schematic showing cubic ...

In this paper, we demonstrate that quasi-interpolation of orders two and four can be efficiently implemented on the Body-Centered Cubic (BCC) lattice by using tensor-product B-splines combined with ...

In a sodium chloride crystal, the sodium and chlorine ions arrange themselves in a repeating pattern known as a lattice. Specifically, NaCl forms a “face-centered cubic” (FCC) lattice structure.

A body-centered cubic (BCC) lattice is a crystal unit cell structure observed in metals, inorganics, and polymers. The deformation behavior of the BCC lattice in metals has been well elucidated, ...

In 2020, the team reported on a device that employed a cobalt-manganese alloy with a metastable body-centered cubic crystal structure. Employing high-throughput experimental methods and/or data ...

Current tunnel magnetoresistive devices comprise magnesium oxide and iron-based magnetic alloys, like iron-cobalt. Iron-based alloys have a body-centered cubic crystal structure in ambient conditions ...

Current tunnel magnetoresistive devices comprise magnesium oxide and iron-based magnetic alloys, like iron-cobalt. Iron-based alloys have a body-centered cubic crystal structure in ambient conditions ...

Iron-based alloys have a body-centered cubic crystal structure in ambient conditions and exhibit a huge tunnel magnetoresistance effect in devices with a rock salt-type magnesium oxide.