Solving the problem of the cosmological constant and the origin of Dirac-Eddington large numbers

Authors

  • Aleksandr Bukalov

Keywords:

electron, proton, vacuum energy, gravitation, superconductivity

Abstract

It is shown that Dirac-Eddington large numbers, connecting the macroscopic, microscopic and cosmological scale, defined by parameters of elementary particles, follow from of the cosmological model with superconductivity (CMS), proposed by the author. Thus there is no need to change the gravitational constant or other constants, as it is suggested by Dirac, because the coincidence problem is solved in the CMS.

References

Букалов А.В. Решение проблемы космологической постоянной и свехпроводящая космология // Физика сознания и жизни, космология и астрофизика. — 2011. — № 1. — С. 17–23.

Букалов А.В. Решение проблемы темной энергии и энергии вакуума в космологической модели со сверхпроводимостью // Физика сознания и жизни, космология и астрофизика. — 2014. — № 1. — С. 5–14.

Dirac P.A.M. — Nature, 1937, v.139, p.323.

Eddington A.S. — Proc. Cam. Phil. Soc., 1931, v.27, p.15.

Eddington A.S. Relativity Theory of Protons and Electrons. — Cambridge, Cambridge Univ. Press, 1936.

Zeldovich Y.B. JETP lett. 6, 345 (1967).

Кардашев Н.С. // Препринт ФИАН. — 1997. — № 26

Planck Collaboration. Planck 2013 results. I. Overview of products and scientific results. — arXiv:1303.5062 [astro-ph.CO].

How to Cite

Bukalov, A. (2016). Solving the problem of the cosmological constant and the origin of Dirac-Eddington large numbers. Physics of Consciousness and Life, Cosmology and Astrophysics, 16(1), 40–43. Retrieved from https://physics.socionic.info/index.php/physics/article/view/231

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