To demonstrate the capabilities of their diamond storage system, the researchers encoded a famous sequence of photographs.

Imagine placing an object under a microscope and pressing a button to rearrange the surface atoms with atomic-scale precision ...

“Once the internal data storage structures are stabilised using our technology, diamond can achieve extraordinary ...

“Our laser method provides atomic-level control over diamond surfaces in a standard air environment,” commented lead ...

Imagine being able to adjust the surface of a material with atomic-scale precision using just a laser. What sounds like science fiction has now become reality, thanks to groundbreaking research ...

High-speed readout is demonstrated with a fidelity of over 99 percent, according to the boffins. Scientists have been eyeing ...

In a new development, researchers from the University of Science and Technology of China have achieved a significant ...

Some scientists think so. Other meteoritic diamonds apparently hail from deep space. In 1987, a team of researchers headed by Edward Anders and Roy Lewis of the University of Chicago reported the ...

A new technical titled “The effects of sub-monolayer laser etching on the chemical and electrical properties of the (100) ...

Previous techniques have also used laser pulses to encode ... colleagues expect that their diamond-based system could eventually be miniaturised to fit within a space the size of a microwave ...

Research is paving the way for advanced diamond-based technologies in electronics and quantum computing. Imagine placing an object under a microscope and pressing a button to rearrange the surface ...