With the new development, UC Berkeley researchers have shown how the process of linking two different types of nanoribbons together has the potential to yield a unique material. This material can ...

Graphene coated with magnetic molecules shows gate-tunable, long-range magnetism while preserving mobility, pointing to ...

Nanodiamonds are versatile, used in quantum computers, among other things. A research team has developed a method to build ...

For the first time, scientists have observed electrons in graphene behaving like a nearly perfect quantum fluid, challenging a long-standing puzzle in physics. By creating ultra-clean samples, the ...

A 200 mm processing platform for the large-scale production of graphene field-effect transistor-quantum dot (GFET-QD) hybrid photodetectors is demonstrated. A comprehensive statistical analysis of the ...

Florida State University physicists are part of a team that has discovered unusual superconducting states in parts of graphene, with the potential to drive unexpected quantum technologies.

An international team of researchers built a highly sensitive quantum microscope and used it to directly observe, for the first time at room temperature, how electrons subtly interact with each other ...

“The threshold for such an event is coming closer to us year by year,” says Théau Peronnin.

Archer Materials Limited, a quantum company developing technologies in computing, sensing, and medical diagnostics, is ...

For several decades, a central puzzle in quantum physics has remained unsolved: Could electrons behave like a perfect, frictionless fluid with electrical properties described by a universal quantum ...

Generating laser light at the high-frequency end of the terahertz spectral range between 6 and 10 THz has long posed a stubborn challenge for semiconductor quantum cascade lasers (QCLs). The barrier ...