Quantum effects in classical chaos through intermittency

T. S. Nag; P. Banerjee

arXiv:1203.1137·cond-mat.other·March 20, 2012

Quantum effects in classical chaos through intermittency

T. S. Nag, P. Banerjee

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TL;DR

This paper explores how quantum fluctuations influence classical chaos, demonstrating that quantum effects tend to increase chaotic behavior during bifurcations such as inverted pitchfork and saddle-node.

Contribution

It introduces a semi-quantal approach to analyze the impact of quantum effects on classical chaotic systems involving intermittency and bifurcations.

Findings

01

Quantum effects enhance chaos in bifurcation scenarios

02

Numerical results support increased chaotic tendency due to quantum fluctuations

03

Study focuses on inverted pitchfork and saddle-node bifurcations

Abstract

The semi-quantal dynamics is applied to investigate the influence of quantum fluctuations on problems in classical chaos through intermittency involving bifurcations. The results of the numerical calculations indicate that quantum effects enhance the tendency to chaos in both the problems of inverted pitchfork and saddle-node bifurcations discussed here.

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Taxonomy

TopicsQuantum chaos and dynamical systems · Chaos control and synchronization · stochastic dynamics and bifurcation