similar to how a qubit shows the superposition of states i.e. it can represent both 0 and 1 simultaneously. Topological ...

In the field of quantum computing there is hope that topological qubits could help achieve a breakthrough in the development of a quantum computer designed for universal applications. This type of ...

With quipu, knots in a string represent a number. By analogy, a conventional qubit would be as if you used a string to form a 0 or 1 shape on a tabletop. A breeze or other “noise” would easily ...

The team found that the system's topological entanglement matched the one made by theoretical predictions, suggesting its ...

So far, Microsoft’s research team has made significant progress in its study of topological qubits. The combination of Microsoft’s qubit-virtualization system and Quantinuum’s trapped-ion ...

Topological insulators (TI) that have an inverted bulk energy ... We recently realized a new solid-state qubit platform by trapping single electrons on an ultrapure solid neon surface in a vacuum and ...

Google's Willow quantum chip, with 105 qubits, enhances AI and quantum applications, boosting sentiment. Despite competitors IBM (156 qubits) and Microsoft (topological qubits), Google leads when ...

The topological gap is a measure of the stability of the qubit when it's in its topological state and capable of being used for computation. Identifying qubits that are in the topological state is ...

Previous studies observed topological transformations by means ... A Kerr nonlinear oscillator can be used as a qubit in quantum computing, as it can generate two simultaneous opposite states.