The stochastic quantum hydrodynamic analogy: quantum mechanics possibly owing large-scale classical dynamics

Details The stochastic quantum hydrodynamic analogy: quantum mechanics possibly owing large-scale classical dynamics The stochastic quantum hydrodynamic analogy: quantum mechanics possibly owing large-scale classical dynamics

2011-07-21

arxiv.org/abs/1107.4198v2

Physics

Quantum Physics

22 pages, no figures, submitted for pubblication

Scientific paper

The quantum hydrodynamic analogy (QHA) equivalent to the Schr\"odinger equation is generalized to its stochastic version by a systematic technique. On large scale, the quantum stochastic hydrodynamic analogy (QSHA) shows dynamics that under some circumstances may acquire the classic behavior. The QSHA puts in evidence that in presence of spatially distributed noise the quantum pseudo-potential restores the quantum behavior on a distance shorter than the correlation length of fluctuations (named here lc) of the quantum wave function modulus. The quantum mechanics is achieved in the deterministic limit when lc tends to infinity with respect to the scale of the problem. When, the physical length of the problem is of order or larger than lc and fluctuations are present, the quantum potential may have a finite range of efficacy maintaining the non-local behavior on a distance lL (named here "quantum non-locality length") depending both by the noise amplitude and by the inter-particle law of interaction. In the deterministic limit (quantum mechanics) the model shows that the "quantum non-locality length" lL also becomes infinite. The QSHA unveils that in linear systems fluctuations are not sufficient to break the quantum non-locality showing that lL is infinite even if lc is finite.

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