Comoving suppression mechanism and cosmological constant problem
Abstract
In this paper, we assume that the observer is fixed in a comoving frame of reference with g00=λ, where λ and denote the comoving parameter and the cosmological constant, respectively. By using the comoving suppression mechanism and Mach's principle (the latter of which is used to determine the comoving parameter λ), we calculate the vacuum energy density of quantum fluctuation field in the above-mentioned comoving frame of reference. It is shown that in such a comoving frame of reference, the cosmological constant will greatly decrease by many orders of magnitude (if Mach's principle is applied to this calculation, then it will be shown that is reduced by about 120 orders of magnitude). Additionally, we briefly discuss the related topics such as the varying observed speed of light ( dc dt= O(10-9 m/s2)) and the mystery of anomalous acceleration ( 10-9 m/s2) acquired by the Pioneer 10/11, Galileo and Ulysses spacecrafts.
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