Whether in a smartphone or laptop, semiconductors form the basis of modern electronics and accompany us constantly in ...

Hydrodynamic models in semiconductor physics provide a macroscopic framework for describing carrier transport by utilising fluid dynamics analogues. These models, which typically incorporate the Euler ...

In a discovery that bridges a century of physics, scientists have observed a phenomenon, once thought to be the domain of inorganic metal oxides, thriving within a glowing organic semiconductor ...

Skoltech researchers and their colleagues from Ludwig Maximilian University of Munich, Germany, Nanjing University of China, ...

Quantum dots and quantum wells represent pivotal nanostructures in semiconductor physics, harnessing quantum confinement to yield discrete energy levels and tailored optical properties. Quantum dots, ...

H, a high-energy ion implanter, marking a key step toward semiconductor self-reliance and chip supply chain security.

In a groundbreaking achievement for quantum technologies, researchers have created a functional quantum register using the atoms inside a semiconductor quantum dot. In a groundbreaking achievement for ...

Roughly the size of a fingernail, semiconductor chips breathe life into modern technologies, including artificial intelligence, smartphones, cars and national security systems. They’re also projected ...

A nanostructure made of silver and an atomically thin semiconductor layer can be turned into an ultrafast switching mirror device that may function as an optical transistor—with a switching speed ...

New measurements in germanium reveal how excited electrons drive lattice vibrations that govern energy flow and heating in semiconductors.