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.
通过观察和分析重核和超重核中量子谱的统计性质,研究有限物理体系中量子混沌的一些问题。
Some aspects of quantum chaos in a finite system had been studied based on the analysis of statistical behaviors of quantum spectra in heavy and superheavy nuclei.
在研究经典混沌系统的量子能级随某一参数变化时,人们观察到了大量的“能级回避交叉”,这种现象很可能是量子混沌的一个重要标志。
When observing energy level of a chaotic system changing with one of the parameter, there are many avoided crossing, which possibly is an important sign of quantum chaos.
量子力学和混沌理论都指出世界处在不断变化中。
Both quantum mechanics and chaos theory suggest a world constantly in flux.
许多量子光学系统都表现出混沌现象。
有界状态和极限集的存在性解释了量子场理论中混沌现象与湍流现象的内涵,并讨论了分歧现象与临界速度。
The existence of bounded states and limit sets are concerned in order to explain chaos and turbulence phenomena in quantum field theory. Bifurcation and two critical speeds are discussed.
本文用量子力学导出了激光- DNA相互作用的运动方程,并分析了此方程之解所反映的系统之混沌态问题。
The Laser DNA interaction system motion equation was derived by means of quantum mechanics, and the problem of chaotic state of the system expressive the solution of this eq.
早期量子论的玻尔-索末菲规则对混沌运动失效。
The Bohr-Sommerfield quantized rule of the old quantum theory has failed in chaotic motion.
运用绝热定理的方法研究耦合系统混沌态的半经典量子化。
By the method of adiabatic theorem, this paper studies the semiclassical quantization of a chaotic state for a coupled system.
该算法在解空间内将实数染色体通过反向变换映射到量子位,采用量子位概率指导的实数交叉与混沌变异相结合的方法对实数染色体进行演化搜索。
In this algorithm, real chromosomes were inversely mapped to Qbits in the solution space. Qbits probability guided real cross and chaos mutation were used to real chromosomes evolution and searching.
该算法在解空间内将实数染色体通过反向变换映射到量子位,采用量子位概率指导的实数交叉与混沌变异相结合的方法对实数染色体进行演化搜索。
In this algorithm, real chromosomes were inversely mapped to Qbits in the solution space. Qbits probability guided real cross and chaos mutation were used to real chromosomes evolution and searching.
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