在经典力学中, 混沌是泛指在确定体系中出现的、貌似无规的类随机运动。根据对应原理在量子力学中应该存在量子不规则运动,即混沌。尚无充分证据证明量子力学存在这种。
Along these lines, we relate quantum chaos, bifurcation to quantum entanglement in periodically kicked two-component Bose-Einstein condensates.
沿着这条思路,本文以一个两分量玻色-爱因斯坦凝聚系统为研究对象,来说明量子纠缠和量子混沌,分岔的关系。
参考来源 - 超冷原子系统中的混沌、分叉与量子纠缠·2,447,543篇论文数据,部分数据来源于NoteExpress
量子混沌的起源来自对经典混沌的量子对应的考虑。
The origin of the quantum chaos come from the consideration of the quantum counterpart of dynamical chaos in classical mechanics.
讨论了纽结理论对量子混沌的应用,并揭示了量子系统中混沌解的拓扑结构。
This paper discusses the application of knot theory to quantum chaos, reveals the topological structure of the chaotic solution of quantum systems.
发现准晶的电子能级分布服从随机矩阵理论与量子混沌理论中的统计分布规律。
We also found that energy level distribution in quasicrystals follows the level statistics in the random matrix theory and quantum chaos.
应用推荐