Researchers in Vienna have discovered something remarkable: crystals that don’t form in space, like diamonds or salt, but in time itself. Instead of atoms arranging neatly into repeating patterns, ...
Understanding how drugs interact with their molecular targets at the atomic level is central to modern drug discovery.
Taiwan’s Industrial Technology Research Institute (ITRI) and the UK’s National Physical Laboratory (NPL) are to co-operate on ...
Dark matter has bewildered scientists for centuries. It makes up most of the universe’s matter, but it can’t be seen directly ...
Plutonium has captured the attention of scientists since its discovery in the early 1940s. This enigmatic element has an ...
UBC Scientists have mimicked the elusive Schwinger effect using superfluid helium, showing how vortex pairs can emerge from ...
ITRI President Edwin Liu emphasized that the UK's leadership in fundamental science, green economy, and digital ...
Focusing on AI quantum and quantum intelligence, a forum drew experts from home and abroad to discuss pressing scientific ...
A micrograph showing the operation of a ‘conveyor belt’ of atom arrays. At each step, a fresh array is created at the bottom, ...
Researchers at the University of California, Irvine, together with international collaborators, have developed a new electron ...
A spinout co-founded by a UCL professor has built the world's first full-stack quantum computer made with the same silicon ...
The Schwinger effect reveals how vacuum fluctuations can produce real particles under strong electric fields, now explored ...
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