It is worth mentioning in the context of:
http://web.mit.edu/physics/greytak-kleppner/publications/LT22_Talk.pdf
which treats atomic hydrogen as a composite boson … which
can be (has been) condensed, all of it raises the remote possibility that
the emitting species in question (which would correspond to “dark matter”)
is not necessarily a single entity but is a relic of the transitory breakup
of accumulations of dark matter.
The DDL is notably a composite boson – and moreover, it is one which would
possibly condense at a relatively high temperature, given that a parameter
which controls ease of condensation is the limitation of freedom of
movement.
Thus, we can argue that dark matter is a strange kind of hydrogen
condensate, which forms massive clouds which do not densify into stars. The
reason for that is still a mystery, but the “placeholder” explanation is
that within the cloud of dark matter there is a repulsive force which is
greater than gravity. Magnetism is a good candidate, especially in the guise
of rapidly alternating polarity, which itself can be defined as the virtual
monopole state.
If we were talking about a BEC of atomic hydrogen as being
dark matter, then the radiation which has been seen in the 3.7 keV range for
instance, could be attributed to the transitory breakup of a larger
condensate…
… so that what we identify as a characteristic signature of
dark matter is in fact a relic of shifting condensate orientation – possibly
representing the passage of gravity waves within a cloud of dark matter.
It gets curiouser and curiouser…
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