Abstract
Bohmian mechanics is a causal interpretation of quantum mechanics in which there are well-defined particle trajectories guided by the wave function. Within this framework, it is shown that certain classical integrable systems can exhibit both periodic and chaotic behaviours. In this paper, we extend the work of Borondo et al. by investigating the behaviours of commensurate two-dimensional harmonic oscillator systems with different ratios of frequencies. We show that the system may produce chaotic behavior of Bohmian trajectories to be dependenton frequencies ratio. This result is illustrated numerically in computer experiments displaying the Bohmian trajectories.
Highlights
Bohmian mechanics is a causal interpretation of quantum mechanics in which there are welldefined particle trajectories guided by the wave function
It is shown that certain classical integrable systems can exhibit both periodic and chaotic behaviours
We extend the work of Borondo et al by investigating the behaviours of commensurate two-dimensional harmonic oscillator systems with different ratios of frequencies
Summary
Bohmian mechanics is a causal interpretation of quantum mechanics in which there are welldefined particle trajectories guided by the wave function.
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