Spontaneous decoherence as a result of randomness in the flow of time
L.I. Rozonoer
TL;DR
This paper explores the hypothesis that the flow of time is inherently random, introducing concepts like microscopic and macroscopic random time, and discusses potential experimental tests and the nature of absolute time.
Contribution
It proposes a novel hypothesis that the flow of time is random and introduces new concepts such as random modular time and microscopic random time.
Findings
Time flow may be inherently random.
Experimental verification of random time is discussed.
Absolute time could be interpreted as a random proper time.
Abstract
The hypothesis of the random flow of time is considered. To do this, the concepts of microscopic random time and macroscopic mean time, as well as random modular time are introduced. The possibilities of experimental verification of the hypothesis of the random flow of time are discussed. The possibility of interpreting the time-like fifth coordinate (introduced by V.A. Fock) as absolute time is considered and the question of the reality of absolute time is discussed. The absolute time, which manifests itself as the proper time of the particles, is assumed to be random.
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Taxonomy
TopicsQuantum Mechanics and Applications · advanced mathematical theories · Noncommutative and Quantum Gravity Theories