介观输运和量子混沌

R. Jalabert
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引用次数: 11

摘要

量子混沌领域主要是从理论的角度发展起来的,主要研究经典混沌动力学的量子表现。很少有实验系统最初被认为同时对经典动力学和量子动力学敏感。直到九十年代初,里德伯原子一直是量子混沌概念的主要试验场,其标志是微波台球、光学晶格中的超冷原子和介观半导体结构中的低温输运的发展。在小的凝聚态物质系统中,在足够低的温度下,电子可以在样品上相干地传播,从而达到介观状态。电子的量子相干性,加上超干净微观结构的弹道运动特性,促使人们提出介观系统作为一个非常特殊的实验室来进行测量和测试量子混沌的理论思想。实验实现和许多重要的发展,在本文中回顾,从这样的联系。
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Mesoscopic transport and quantum chaos
The field of Quantum Chaos, addressing the quantum manifestations of an underlying classically chaotic dynamics, was developed in the early eighties, mainly from a theoretical perspective. Few experimental systems were initially recognized to exhibit the versatility of being sensitive, at the same time, to their classical and quantum dynamics. Rydberg atoms provided the main testing ground of Quantum Chaos concepts until the early nineties, marked by the development of microwave billiards, ultra-cold atoms in optical lattices, and low-temperature transport in mesoscopic semiconductor structures. The mesoscopic regime is attained in small condensed matter systems at sufficiently low temperatures for the electrons to propagate coherently across the sample. The quantum coherence of electrons, together with the ballistic motion characteristic of ultra-clean microstructures, motivated the proposal of mesocopic systems as a very special laboratory for performing measurements and testing the theoretical ideas of Quantum Chaos. Experimental realizations and many important developments, reviewed in this article, followed from such a connection.
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