Researchers at Forschungszentrum Jülich and the Leibniz Institute for Innovative Microelectronics (IHP) have developed a material that did not exist before: a stable alloy of carbon, silicon, ...

Two new hands-on courses launch as part of the Central Coast Partnership for Regional Industry-focused Micro/Nanotechnology Education (CC-PRIME) From The Robert Mehrabian COE News article "UCSB ...

Solar cells and computer chips need silicon layers that are as perfect as possible. Every imperfection in the crystalline structure of a silicon wafer increases the risk of reduced efficiency or ...

Scientists discover new electronic states in graphene that could pave the way for more efficient, error-free quantum ...

Jacobson/NIST After two decades of tinkering, scientists at NIST have unveiled the world’s most accurate atomic clock, a ...

CEA-Leti has developed an innovative superconducting interconnect brick that could enable achieving a higher density of ...

Scientists hunting invisible forces in non-magnetic metals with the optical Hall effect report the first-ever successful detection.

German researchers have developed a new material, opening up new opportunities in electronics, photonics and quantum.

Rigetti uses a square lattice layout for their qubits. Basically, instead of arranging qubits in a line or some other random way, they put them in a grid. This makes it easier to connect them and ...

Researchers at the Jülich Research Center and the Leibniz Institute for Innovative Microelectronics (IHP) have developed a ...

Researchers have developed a breakthrough semiconductor alloy that paves the way for advanced quantum, photonic, and ...