A comparison between classical and Bohmian quantum chaos

arXiv - MATH - Mathematical Physics Pub Date : 2024-09-18 DOI:arxiv-2409.12056
Athanasios C. Tzemos, George Contopoulos
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Abstract

We study the emergence of chaos in a 2d system corresponding to a classical Hamiltonian system $V= \frac{1}{2}(\omega_x^2x^2+\omega_y^2y^2)+\epsilon xy^2$ consisting of two interacting harmonic oscillators and compare the classical and the Bohmian quantum trajectories for increasing values of $\epsilon$. In particular we present an initial quantum state composed of two coherent states in $x$ and $y$, which in the absence of interaction produces ordered trajectories (Lissajous figures) and an initial state which contains {both chaotic and ordered} trajectories for $\epsilon=0$. In both cases we find that, in general, Bohmian trajectories become chaotic in the long run, but chaos emerges at times which depend on the strength of the interaction between the oscillators.
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经典混沌与玻密量子混沌的比较
我们研究了与经典哈密尔顿系统$V= \frac{1}{2}(\omega_x^2x^2+\omega_y^2y^2)+\epsilon xy^2$相对应的由两个相互作用的谐振子组成的二维系统中混沌的出现,并比较了$\epsilon$值增大时的经典和玻密量子轨迹。特别是,我们提出了一个由两个相干的 $x$ 和 $y$ 状态组成的初始量子态,它在没有相互作用的情况下产生有序轨迹(利萨如图),以及一个在 $epsilon=0$ 时包含{混沌和有序}轨迹的初始态。在这两种情况下,我们发现,一般来说,波密轨迹在长期内会变得混乱,但混乱出现的时间取决于振子间相互作用的强度。
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arXiv - MATH - Mathematical Physics
arXiv - MATH - Mathematical Physics
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