Recently, researchers from the University of Tokyo have discovered that topology plays a key role in decoding the energy in amorphous materials. These materials are commonly used in a variety of applications, from window glass to solar cells, and are not composed of any crystalline structure.

The researchers used advanced computational simulations to study the dynamics of energy flow in amorphous materials. They found that the topology of the material, which describes the organization of its arrangement, affects how energy is stored and used. It was determined that the topological structure of the material can be used to control the release of energy, allowing for more efficient energy utilization. This could potentially lead to new ways of utilizing the energy stored in amorphous materials.

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source: Phys.org