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Quantum Mechanics Based on an Extended Least Action Principle and Information MetricsĀ of Vacuum Fluctuations.

Authors :
Yang, Jianhao M.
Source :
Foundations of Physics. Jun2024, Vol. 54 Issue 3, p1-31. 31p.
Publication Year :
2024

Abstract

We show that the formulations of non-relativistic quantum mechanics can be derived from an extended least action principle. The principle can be considered as an extension of the least action principle from classical mechanics by factoring in two assumptions. First, the Planck constant defines the minimal amount of action a physical system needs to exhibit during its dynamics in order to be observable. Second, there is constant vacuum fluctuation along a classical trajectory. A novel method is introduced to define the information metrics to measure additional observability due to vacuum fluctuations, which is then converted to an additional action through the first assumption. Applying the variational principle to minimize the total actions allows us to recover the basic quantum formulations including the uncertainty relation and the Schrödinger equation in the position representation. In the momentum representation, the same method can be applied to obtain the Schrödinger equation for a free particle while further investigation is still needed for a particle with an external potential. Furthermore, the principle brings in new results on two fronts. At the conceptual level, we find that the information metrics for vacuum fluctuations are responsible for the origin of the Bohm quantum potential. Even though the Bohm potential for a bipartite system is inseparable, the underlying vacuum fluctuations are local. Thus, inseparability of the Bohm potential does not justify a non-local causal relation between the two subsystems. At the mathematical level, quantifying the information metrics for vacuum fluctuations using more general definitions of relative entropy results in a generalized Schrödinger equation that depends on the order of relative entropy. The extended least action principle is a new mathematical tool. It can be applied to derive other quantum formalisms such as quantum scalar field theory. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00159018
Volume :
54
Issue :
3
Database :
Academic Search Index
Journal :
Foundations of Physics
Publication Type :
Academic Journal
Accession number :
178287421
Full Text :
https://doi.org/10.1007/s10701-024-00757-7