量子隐形衣隐藏了电子设备

Jeng-Yi Lee, Ray-Kuang Lee
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引用次数: 0

摘要

随着现代电子器件的发展越来越小,量子效应将变得越来越重要。因此,将量子力学的概念扩展到新的电子器件的设计中变得更加重要。控制这些电子的运动在这个问题中起着中心作用。在这项工作中,我们提出了一种新的量子隐形机制,这与Liao等人[1]之前的工作完全不同。该机制是基于散射抵消和部分波节点之间的相互作用,可以同时引导内部外部的概率通量而使总散射截面可以忽略不计。此外,我们可以在不影响物质波外部概率的情况下将任何电子器件放入量子隐形中。由于量子物质波与经典波的相似性,我们的方法概念可以应用于其他领域,如电磁系统和声学系统等。
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Quantum cloakings hide electronic devices
As the modern development of electronic device smaller and smaller, quantum effect would become significant. Thus extending the concept of quantum mechanics into design of new electronic devices becomes more important. Controlling the movement of these electrons plays the central role in this issue. In this work, we propose a new quantum cloaking mechanism which has completely different to the previous work of Liao et al [1]. This mechanism is based on the scattering cancellation and the interplay among the nodal points of partial waves, that one can simultaneously guide the probability flux outside the interior and keep the total scattering cross section negligible. Moreover, we can put any electric devices inside quantum cloaking without affecting outside probability of matter wave. With the analogy between quantum matter waves and classical waves, the concept of our method can be applied in other fields, such as electromagnetic and acoustic systems, etc.
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