MIT creates nanoscale transistors for efficient electronics Quantum tunneling delivers low-voltage, high-performance The ...

"Non-Abelian anyons have the bewildering capacity of 'remembering' their space-time trajectories; this memory effect can be ...

MIT physicists have shown that it should be possible to create an exotic form of matter that could be manipulated to form the qubit (quantum bit ...

By combining quantum physics and machine learning, these innovations could unlock the true potential of the quantum realm.

A 1930s-era breakthrough is helping physicists understand how quantum threads could weave together into a holographic space-time fabric. Until his dying days, the giant of 20th-century physics ...

MIT physicists predict the emergence of non-Abelian anyons in two-dimensional moiré materials, paving the way for transformative quantum computing. These exotic particles "remember" spacetime paths, ...

Physicists surprised to discover electrons in pentalayer graphene can exhibit fractional charge. New study suggests how this could work.