Local Softening of Information Geometric Indicators of Chaos in Statistical 
Modeling in the Presence of Quantum-Like Considerations

Giffin, Adom; Ali, Sean A.; Cafaro, Carlo

doi:10.3390/e15114622

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Local Softening of Information Geometric Indicators of Chaos in Statistical Modeling in the Presence of Quantum-Like Considerations

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Cafaro, Carlo
van Loock Research Group, Research Groups, Max Planck Institute for the Science of Light, Max Planck Society;

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Citation

Giffin, A., Ali, S. A., & Cafaro, C. (2013). Local Softening of Information Geometric Indicators of Chaos in Statistical Modeling in the Presence of Quantum-Like Considerations. ENTROPY, 15(11), 4622-4633. doi:10.3390/e15114622.

Cite as: https://hdl.handle.net/11858/00-001M-0000-002D-66F5-B

Abstract

In a previous paper (C. Cafaro et al., 2012), we compared an uncorrelated 3 D Gaussian statistical model to an uncorrelated 2 D Gaussian statistical model obtained from the former model by introducing a constraint that resembles the quantum mechanical canonical minimum uncertainty relation. Analysis was completed by way of the information geometry and the entropic dynamics of each system. This analysis revealed that the chaoticity of the 2 D Gaussian statistical model, quantified by means of the Information Geometric Entropy (IGE), is softened or weakened with respect to the chaoticity of the 3 D Gaussian statistical model, due to the accessibility of more information. In this companion work, we further constrain the system in the context of a correlation constraint among the system's micro-variables and show that the chaoticity is further weakened, but only locally. Finally, the physicality of the constraints is briefly discussed, particularly in the context of quantum entanglement.