Mass of the Universe from a Fundamental Quantum Description

  • Hans-Peter Morsch HOFF
Keywords: Fundamental quantum description of gravity×Effective Radius and Mass of the Universe×Annihilation Radius and Maximum Energy Density


Within a fundamental quantum theory, in which gravitation is described by magnetic binding of hadron-lepton pairs, the mechanisms responsible to the development of the universe are well understood. The Solar system has been found to be a stable bound state with a present distance from the center of the universe of about 1200 Mpc. Using this result, the radius of the universe, which comprises essentially all matter, is estimated to be about 1800 Mpc. The total mass is given by the accumulated mass, before the early gravitational system became destabilized by CP-violating processes. Consistent with the known energy-density of the universe a mass of about 4 10^{78} GeV/c^2 (sim 4 10^{21} Solar masses) is obtained.

Further, from the present temperature of the cosmic microwave background (CMB) of 2.73 K an annihilation radius in the order of 1 mm is obtained (for absorption of a fraction of 10^{-4} and 10^{-5} of the total annihilation energy).


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Author Biography

Hans-Peter Morsch, HOFF

HOFF, Brockm ̈ullerstr. 11, D-52428 J ̈ulich, Germany


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How to Cite
Morsch, H.-P. (2019). Mass of the Universe from a Fundamental Quantum Description. To Physics Journal, 3, 128-133. Retrieved from
Research Articles