Authors: Paolo Bolzoni
In this study we want to propose a heuristic model to compute and to interpret the dark energy content of our universe. To this purpose we include the mass-energy of the static gravitational field and compute its effect at very small distances. From its analysis, we obtain for the smallest surface scale for the empty space $\tau=2h\gamma/5c^3$. After that we show, how this result can be used to compute a natural energy cutoff $k_c$ for all quantum fields and study its utility in computing the dark energy density and its implications on the content of fermionic and bosonic elementary fields. Indeed for the vacuum equation of state w=p_{vac}/\rho_{vac} we obtain w=}-128\pi^2/(15\Delta N), where \Delta N\= N_f - N_b$ represents the difference between the number of species of fermions and bosons. Finally comparing our result with the measured cosmological parameters, we discus general constraints on the field content beyond the Standard Model of the elementary particles.
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[v1] 2016-12-19 03:11:44 (removed)
[v2] 2016-12-19 07:16:24
[v3] 2017-01-01 11:18:56
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