TITLE:
Genesis of Super-Dense Centroids and Kerneloids of Photons and Electrons from Quantum Vacuum: Theoretical Implications
AUTHORS:
Marius Arghirescu
KEYWORDS:
Vortical Electron, Cold Genesis, Photon Model, Protouniverse Period, Copenhagen Vacuum, Magnetic Strings
JOURNAL NAME:
Journal of High Energy Physics, Gravitation and Cosmology,
Vol.12 No.2,
April
30,
2026
ABSTRACT: The paper analyses the cold genesis of electron and of vector photon considered in a vortical model, from a primordial dark energy having a wind-like component
ρ
v
0
giving magnetic vortex-tubes and a brownian component
ρ
0
of an etherono-quantonic medium containing also heavy (sinergonic) etherons and quantons with energy
ε=h⋅1
. By two equation of dynamic equilibrium and by a “sinergonic” force of Magnus-type, it was deduced, in a cold genesis theory, that in the actual cosmic era would be necessary a critical density of sinergons:
ρ
s
0
+
ρ
sv
0
≈7.2×
10
18
kg/m3 and a critical induction associated to the formed vortex-tubes:
B
0
(
r
0
k
)=3.37×
10
17
T
, respective
−
B
0
(
r
0
)=0.79×
10
16
T
, for the forming of light vector photons with mass
m
v
≈2.3×
10
−40
kg and of electronic centroids, but in the begining of the Proto-Universe’ era these particles could have been formed from slowed quantons, confined by a less intense sinergonic vortex
Γ
sv
(
r
)
, either with a density
ρ
s
>
ρ
s
0
(
r
v
)
, at an associated vortex-field intensity:
B<
B
0
, or at
ρ
s
<
ρ
s
0
(
r
v
)
, by a gravito-magnetic potential
V
gm
(
r
)
, if the rotation speed of vortexed quantons not exceed a critical value
v
c
c
=
k
c
c
, with
k
c
~
ρ
s
c
corresponding to a critical Bc-field associated to the etherono-quantonic vortex:
B
c
~
ρ
sv
c
(
r
v
)>
ρ
s
c
. Some theoretical implications of the magnetic field’s vortical nature, including the perpetual rotation of atomic electrons and the magnetic radius of proton are analyzed.