Glassy state: a new field theory describes amorphous materials such as glass beads. (Courtesy: iStock/schmidt-z) Many common materials such as glass, compacted sand and toothpaste have a solid’s ...

Material engineers and scientists have long wanted to understand the atomic structures of amorphous solids such as glass, rubber and plastics more fully. Unlike the structures of crystalline materials ...

Glassy states represent a fascinating class of disordered materials in which atoms or molecules are frozen into non-crystalline arrangements. Their vibrational properties differ markedly from those of ...

In a crystalline solid, the atoms form an ordered lattice. Crystalline solids respond elastically to small deformations: When the applied strain is removed, the macroscopic stress, as well as the ...

Anything made out of plastic or glass is known as an amorphous material. Unlike many materials that freeze into crystalline solids, the atoms and molecules in amorphous materials never stack together ...

Scientists from the Institute of Industrial Science at The University of Tokyo used molecular dynamics simulations to better understand the unusual properties of amorphous solids, such as glass. They ...

Researchers have developed a new method for understanding the structure organization of disordered materials fundamentally different from previous geometric approaches of ordered crystals. This ...

For a long time, it was thought that amorphous solids do not selectively absorb light because of their disordered atomic structure. A new study disproves this theory and shows that amorphous solids ...

Persistence diagram obtained from the structure of amorphous silicon, examples of the local ring structures corresponding to each point in the diagram, and representative structures including atoms ...

This is a preview. Log in through your library . Abstract Mechanical deformation of amorphous solids can be described as consisting of an elastic part in which the stress increases linearly with ...