Atoms in Cavities Quantum Entanglement and Quantum Computing

M. Bruns
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Abstract

Circular Rydberg atom strongly coupled to superconducting millimeterwave cavities make it poasible to realize experiments on fundamental aspects of quantum mechanics. Resonant and dispersive atom-field interactions provide ways to realize quantum s t a b swapping and conditional quantum dynamics. They can be used to produce non local correlations and complex, tailored, entangled quantum states in many particle systems. Fundamental test of quantum mechaniw are now within the reach of cavity quantum electrodynamiw experimenta. Complex quantum states are ala0 at the heart of the recently proposed techniques for quantum information processing or quantum computing, a field boiling with excitement. Although cavity QED techniques allow the realization of some basic components, such a quantum logic gata, they also provide experimental insighta into the dewherenee processes, which doom any attempt to realize a large scale quantum information processing ma&. In the light of recant experiments performed in our laboratory, we &CUBS realistic perspectives and impossibilities in this field. Abstract
空腔中的原子、量子纠缠和量子计算
圆里德伯原子与超导毫米波腔强耦合使量子力学基本方面的实验成为可能。共振和色散原子场相互作用为实现量子量子交换和条件量子动力学提供了途径。它们可以用于在许多粒子系统中产生非局部关联和复杂的、定制的、纠缠的量子态。量子力学的基本测试现在是在腔量子电动力学实验的范围内。复杂量子态是最近提出的量子信息处理或量子计算技术的核心,这是一个令人兴奋的领域。虽然腔QED技术允许实现一些基本组件,如量子逻辑数据,但它们也提供了对去where过程的实验见解,这使得任何实现大规模量子信息处理的尝试都失败了。根据最近在我们实验室进行的实验,我们和小熊现实的观点和不可能在这个领域。摘要
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