Researchers at Osaka University have revealed a link between the equations describing strain caused by atomic dislocations in ...

Their findings, published in the journal “Science Advances,” described a lattice arrangement of three different layers of ferroelectric crystals (in this case, of barium titanate, strontium ...

This regular arrangement, known as a crystal lattice, forms as atoms or molecules bond in a way that minimizes the structure’s overall energy, creating symmetry and stability. Crystals form ...

One way of creating a time crystal is to knock some of the carbon atoms out of the crystal lattice of diamond, creating what ...

For decades, researchers have explored how electrons behave in quantum materials. Under certain conditions, electrons ...

Birefringent crystalline materials are essential in advanced optical technologies such as isolators and modulators due to ...

Remember that the lattice arrangement is giant - for example, a single grain of salt may contain 1.2 × 10 18 (1,200,000,000,000,000,000) ions. The lattice arrangement continues in three dimensions.

which contain information about the local crystal structure, symmetry, and strain. CBED is highly sensitive to small changes in the atomic arrangement and is often used for precise lattice parameter ...

Remember that the lattice arrangement is giant - for example, a single grain of salt may contain 1.2 × 10 18 (1,200,000,000,000,000,000) ions. The lattice arrangement continues in three dimensions.