New nuclear property perhaps related to the origin of dark matter:
Dear Prof. Andrea Pocar
University of Massachusetts
A new nuclear property (unknown by nuclear theorists) can be connected to
dark matter. The new nuclear property is clearly evidenced in the
lithium isotope 3Li6 (see "note" at the page 10 of the paper "Calculation of magnetic moments for light nuclei with number of protons between Z=3 and Z=30"), where it is written:
Note:
Perhaps this influence of the n(o)-flux in the inertia of the nuclei
has relation with dark matter, whose origin intrigues the mind of the
theorists nowadays.
It seems the n(o)-flux, existing in atomic nuclei, is formed by gravitons
The paper is ended with the following comment:
22. Intriguing new experimental findings regarding entanglement
The
influence of the n(o)-flux in the inertial behavior of the 3Li6, seen
in this paper, is very intriguing, and (as already mentioned in the note
of the page 10) perhaps it has relation with the quantum entanglement.
There are two speculations which perhaps deserve to be considered.
- The
n(o)-flux seems to be the unique reasonable explanation for the quantum
entanglement, because it seems to be improbable it can be a
phantasmagoric phenomenon, inasmuch it seems there is no any way to find
a physical cause responsible for the entanglement, by considering the
current foundations of quantum theory. But besides the observation of
its occurrence between photons and between atoms, recently in
superconducting electric circuits entanglement of massive objects can
also be generated and detected [6]. And it seems
do not exist any candidate more reasonable on causing the entanglement
between massive objects than the n(o)-flux, because all they are
composed by atomic nuclei, where the n(o)-flux is generated.
- So,
as entanglement is generated by massive objects, as new experiments are
detecting, then perhaps the influence of the n(o)-flux in the inertia
of the nuclei has relation with phenomena which theorists try to explain
with the hypothesis of dark matter, whose origin intrigues the mind of
the theorists nowadays. As the creation of a microscopic n(o)-flux is
induced by rotation of quarks (or singletons, in the case of photons, as
will be shown in the paper “On the origin of the mass of the elementary
particles”, to be published later), maybe giant n(o)-graviton-fluxes
can be induced by the rotation of a galaxy around a giant galaxy. And if
galaxies have interaction through a gravitational quantum entanglement
via n(o)-flux, then Newton’s gravitational theory cannot be applied for
the case of interactions between some very massive objects, as the
satellite galaxies of the Milky. In resume, if very, very massive
galaxies are able to generate a giant n(o)-flux, then the hypothesis of
dark matter can be dismissed for explaining the puzzle.
- The
laws of the electromagnetism were discovered with the experiments made
by Faraday. Those laws are consequence of interactions in the
microworld, between magnetons and electricitons, which are some among
other elementary particles which compose the aether [1,2]. The laws that
rule the interaction between magnetons, electricitons, and gravitons,
in the behavior of galaxies, were not yet discovered. But their
discovery cannot be found if we do not discover, first of all, what are
the fundamental laws which rule the interactions of elementary particles
of the aether into the structure of quarks and inside the atomic
nuclei.
Regards
W Guglinski