Researchers engineered a strained germanium layer on silicon that allows charge to move faster than in any silicon-compatible ...

Most modern semiconductors are fabricated of or on silicon (Si), but as devices get smaller and denser, they dissipate more ...

Scientists in a recent breakthrough have achieved the “highest hole mobility” ever measured in a material compatible with ...

A strained germanium epilayer on silicon achieves a record hole mobility, enabling faster low-power electronics and scalable ...

Researchers are investigating hole mobility in compressively strained germanium on silicon to improve the performance of next ...

Chris Allemang from Sandia National Laboratories contributed to research toward improving the performance of certain quantum ...

A Luxembourg-based securitisation vehicle has introduced a new high-yield, investment-grade note that is attracting attention ...

University of Warwick and National Research Council of Canada scientists achieve record-breaking electrical conductivity in ...

The QUBIT Semiconductor Market is driven by rising demand for quantum computing in AI, aerospace, and research sectors.

As the industry advances into the angstrom era, gate-all-around architectures combined with atomic-scale materials ...

Researchers believe they can fit 25 million Josephson junctions — a useful component for quantum computing — on one two-inch wafer with this approach.