从这个意义上讲,量子相干性(quantum coherence)与量子退相干(quantum decoherence)是我们应有新技术的的源泉所在,但其本身是很脆弱的。这使得我们既看到了曙光,又面临新的挑战。
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By the commonly theory of quantum decoherence, we study its dynamic processing of quantum decoherence. The dynamical mechanism for the above system is described also.
详细研究了该量子退相干动力学模型的退相干机制。
参考来源 - 量子退相干的理论研究·2,447,543篇论文数据,部分数据来源于NoteExpress
另一方面,量子退相干是量子信息领域走向实际应用的重要障碍之一。
On the other hand, quantum decoherence is one of the key obstacles in the applications of quantum information.
传统的刻画量子退相干的方法都是采取了马尔科夫近似,即认为环境对系统不存在记忆效应。
Traditionally, the quantum decoherence process is mathematically solved by using Markov approximation. That is, the environment has no memory effect on the system.
在实现信息处理的过程中,量子态叠加原理、量子纠缠和量子退相干等基本原理和基本概念应当充分考虑。
Some fundamental principles, such as the principle of quantum state superposition, quantum entangled state and quantum decoherence etc.
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