量子计算的一种实现方法依赖于相互纠缠的光子和原子,这是一种联系非常紧密的量子态,即使两者间隔很远也能相互影响。
One approach to quantum computing relies on entangling photons and atoms, or binding their quantum states so tightly that they can influence each other even across great distances.
一旦发生纠缠,光子可以将储存在原子量子态中的任何信息传递到计算机的其他位置。
Once entangled, a photon can carry any information stored in the atom's quantum state to other parts of the computer.
结果表明:通过控制原子和腔场相互作用时间,可制备两原子的最大纠缠态。
The result shows that the maximally entangled state can be prepared by controlling interaction time.
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