Newly published research demonstrates a novel way of generating phonon-polaritons by making electrons collide with crystal lattice structures. The discovery paves the way for cheaper, smaller ...

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

The work 'Hyperbolic phonon-polariton electroluminescence in 2D heterostructures', led by researchers at the US Advanced ...

They found that triangular-lattice PCSELs exhibited stronger ... facilitate the experimental optimization of photonic crystal structures, enabling targeted improvements in device performance ...

Their often unique and exotic properties, which stem from perovskite's peculiar crystal structure ... arrange themselves throughout the crystal lattice, once they reach certain concentrations ...

They demonstrated that the fields representing the strain generated around lattice dislocations in crystalline materials, modeled by Cartan's First Structure Equation, obey the same equations as ...

Zinc sulphide exists with two different crystal structures, the cubic zinc blend (top diagram) and the hexagonal Wurtzite (lower diagram). In the zinc blend structure the sulphur ions form an fcc ...

Their findings, published in the journal “Science Advances,” described a lattice arrangement of three ... The charge separation leads to an asymmetric structure that enables electricity ...

Perovskite cells may soon offer an alternative to silicon solar cells. These semiconductors are cheaper to manufacture and ...

Sodium Chloride is an alkali halide with an fcc crystal structure. The basis is two ions, a sodium cation and a chlorine anion. The crystal lattice parameter is 0.563 nm. The diagram shows both a unit ...

Imagine a world where your phone stays cool no matter how long you use it, and it's also equipped with tiny sensors that can ...