In a leap forward for quantum computing, a Microsoft team led by UC Santa Barbara physicists on Wednesday unveiled an eight-qubit topological quantum processor, the first of its kind. The chip, built ...

Magnetic-superconducting hybrid systems are key to unlocking topological superconductivity, a state that could host Majorana modes with potential applications in fault-tolerant quantum computing.

A ‘topoconductor’ is a brand-new type of material that Microsoft created. It helps keep the quantum information safe from ...

In a leap forward for quantum computing, a Microsoft team led by UC Santa Barbara physicists on Wednesday unveiled an eight-qubit topological quantum processor, the first of its kind. The chip ...

Quantum computing could be a $200 billion market by 2040. These AI leaders will likely play a significant role in it.

The world of quantum computing is moving fast. It’s a really exciting area where new ideas are popping up all the time. This ...

The convergence of photonic quantum computing and neutral atom arrays charts a bold and expansive trajectory for the future ...

The breakthrough led to Majorana 1, the first quantum computer processor powered by topological qubits. This chip can hold 1 million qubits. By contrast, Rigetti's system can support 100 qubits.

Quantum computing could change the world over the coming decades. It's not too early to think about how to profit from this generational technological leap.

In a leap forward for quantum computing, physicists unveiled an eight-qubit topological quantum processor, the first of its kind. The chip, built as a proof-of-concept for the scientists' design ...

For topological quantum computing, Majorana particles — more specifically Majorana zero modes — are the tool of choice. Named for Italian physicist Ettore Majorana, who predicted them in 1937, these ...