Computers based on memristors promise significant energy savings and improved accuracy in large-scale computing.

Computers based on memristors promise significant energy savings and improved accuracy in large-scale computing.
A light-matter hybrid material on attosecond scales showcases enhanced conductivity with potential applications in solar cells and high-power electronics.
A newly discovered material and its intriguing properties could pave the way for more efficient computing.
A research team have built a virtual creature mimicking the many brain-containing limbs of an octopus.
Harnessing quantum dots to produce low-energy single photons for applications in secure communications and quantum computing.
Machine learning unravels the secrets of the Gaudin model, paving the way for improved quantum technologies and a deeper understanding of quantum behavior.
Autonomous materials laboratories and the research communities that build them will be crucial to achieving our climate goals.
Scientists investigate the synergy of entanglement and curved spacetime in advancing quantum radar technology for precise distance measurement.
What if quantum computing could be simulated using hardware that isn’t so finicky?
Using a specialized design approach, scientists create acoustic waves that behave as twisted, ultrasonic motors capable of rotating particles in space.