Researchers have demonstrated that ultra-short pulses of light, down to 34 millionths of a billionth of a second, elicit the same response as continuous illumination. The experiment harnessed interactions between real and virtual states to 'switch' the electronic state of an atomically-thin (2D) material, tungsten-disulfide, aiding the search for future low-energy electronics based on exotic topological materials.
source https://www.sciencedaily.com/releases/2021/10/211005101910.htm
Wednesday, 6 October 2021
Related Posts
Making the strange metal state in high temperature superconductors even stranger
A new 3D printing frontier: Self-powered wearable devices
Red paint on 1,000-year-old gold mask from Peru contains human blood proteins
Carbon nanotubes could help electronics withstand outer space’s harsh conditions
Making Martian rocket biofuel on Mars
Polar bear diet may indicate prey distribution changes due to climate shifts
0 comments: