The course covers fundamental solid-state and semiconductor physics relevant for understanding electronic devices. Topics include quantum mechanics of electrons in solids, crystalline structures, band ...

Constrained by the laws of physics, semiconductor companies are exploring different strategies to wring each incremental performance improvement out of their next process node. We may not need ...

In an advance for quantum technologies, researchers at the Cavendish Laboratory, University of Cambridge, have created a ...

Scientists have harnessed many-body physics to transform quantum dots into scalable, stable quantum nodes. By entangling nuclear spins into a ‘dark state,’ they created a quantum register capable of ...

A better understanding of electronic transport in semiconductors is essential for both fundamental and applied physics, as it directly affects key material properties such as the conductivity and ...

Cornell scientists have developed a novel technique to transform symmetrical semiconductor particles into intricately twisted ...

Two-dimensional (2D) semiconductors have emerged as a material platform for the investigation of exciton physics. Their reduced dimensionality, combined with weak screening, fosters robust Coulomb ...

The research was carried out using a high-quality semiconductor-based sample that ... "The demonstrated results add a new dimension to the physics of open many-body quantum systems, enabling ...

The Semiconductor Photonics and Quantum Technologies cluster is active in a variety of topical areas in semiconductor physics, photonics and quantum technologies. The activities of the group encompass ...

The work by researchers in the Center for Advanced Semiconductor Technologies could lead to energy-efficient microelectronics ...

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