中国科学家使用78平方位量子处理器来延缓量子混乱,通过金枪鱼的驱动模式延长一致性时间,这是迈向实际量子计算的一个步骤。 Chinese scientists used a 78-qubit quantum processor to delay quantum chaos, extending coherence time via tunable driving patterns, a step toward practical quantum computing.

中国科学院和北京大学的研究人员使用名为“Chwang-tzu 2.0”的78-qubit量子处理器观察和控制原热化——一种暂时稳定的状况,延缓量子混乱。 Researchers from the Chinese Academy of Sciences and Peking University used a 78-qubit quantum processor named "Chuang-tzu 2.0" to observe and control prethermalization—a temporary stable state that delays quantum chaos. 通过应用一种称为随机多极驱动的技术，他们延长了量子信息保持相干的时间，减缓了热化速度。 By applying a technique called Random Multipolar Driving, they extended the time quantum information remains coherent, slowing thermalization. 发表在《自然》上的调查结果表明,热化可以通过调整驱动模式、改进量子系统的控制来调整。 The findings, published in Nature, show that thermalization can be tuned by adjusting driving patterns, improving control over quantum systems. 这一进步支持在量子优势和更强大的量子技术方面取得进展。 This advance supports progress toward quantum advantage and more powerful quantum technologies.