These "split-electrons" can act as topological qubits and might hold the key to unlocking the full power of quantum ...

Researchers have discovered an innovative way to manipulate electronic properties in a magnetic Weyl semimetal using hydrogen ...

Quantum computing remains something of a holy grail in the world of technology: It promises a huge leap in computing power, ...

Topological insulators (TIs) are among the hottest topics in condensed matter physics today. They're a bit strange: Their ...

it is of interest for topological quantum computing. The challenge with introducing topological order in time crystals is their dynamic nature. Topological order requires stability and equilibrium ...

Scientists from UBC and other institutions discovered topological quantum states in graphene, unlocking new possibilities for quantum computing.

Rydberg Atoms: Highly excited atoms that exhibit strong interactions with each other, making them useful for quantum simulation and computation. Topological Order: A type of order in quantum ...

The gapless states, often referred to as Majorana fermions, are of particular interest due to their non-Abelian statistics and potential for quantum computing applications. The unique properties of ...

These inherent properties of TIs, and the interplay between magnetism and proximity to superconductors, make topological insulators a prime platform for the realization of solid-state quantum ...

Researchers from UBC, the University of Washington, and Johns Hopkins have identified topological electron crystals in ...

Developments in quantum computing highlight the risk to financial institutions and national security if new encryption ...