The laws of physics that concern heat and work could gain a firmer mathematical footing thanks to “gauge theory”, which ...
Quantum researchers in the twenty-first century are part of an international network that requires a great deal of interaction and communication. Around one hundred publications on the topic are ...
In an exciting development for quantum computing, researchers from the University of Chicago's Department of Computer Science, Pritzker School of Molecular Engineering, and Argonne National Laboratory ...
A quiet transformation is unfolding in the way scientists design the materials that power modern technology. From faster computers to energy-saving electronics, the next generation of breakthroughs ...
There’s no denying AI is shaping the future of education. Instead of the traditional one-size-fits-all academic approach, AI offers a more real-time, personalized way of explaining concepts. Models ...
Those who follow tech news may have seen Microsoft’s recent announcement of Majorana 1, “the world’s first quantum chip powered by a new Topological Core architecture.” If that sounds like something ...
Wormholes may help solve a major physics paradox, the conflict between quantum mechanics and general relativity. The “direct-sum quantum theory” views spacetime as distinct but related regions.
Quantum field dynamics in curved spacetime addresses how quantum fields—fundamental entities underpinning matter and forces—behave in the presence of gravitational curvature. Unlike flat Minkowski ...