A tiny light trap could unlock million qubit quantum computers
A new light-based breakthrough could help quantum computers finally scale up. Stanford researchers created miniature optical cavities that efficiently collect light from individual atoms, allowing many qubits to be read at once. The team has already demonstrated working arrays with dozens and even hundreds of cavities. The approach could eventually support massive quantum networks with millions of qubits.
Scientists have found a way to efficiently funnel light from individual atoms, solving a key problem in scaling quantum computers. Credit: Shutterstock After years of slow progress, researchers may finally be seeing a clear path forward in the quest to build powerful quantum computers. These machines are expected to dramatically shorten the time required for certain calculations, turning problems that would take classical computers thousands of years into tasks that could be completed in hours.
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