Xinyan
Zhang
21.10.2003
What are the properties of the non-baryonic
dark matter?
Where did it come from?
How will it be in a distant future?
Does it have anything to do with our
universe’s expansion?
There might be answers for them hidden in
the new concepts from the article The Fundamental Human
Conjecture.
According to this article:
There was a universe called as U. Summer existing before ours, there will be another one called
as U. Winter arising after ours, and the universe in which
we exist is then called as U. Autumn. There was only one thing existing in the U. Summer, which is called as pure energy. Only one thing
opposite to the pure energy will exist in the U. Winter, which is called
as pure matter. And all the different things existing in our U. Autumn,
such as time, space, quarks, leptons, stars, dark matter, organisms, humans and
human minds, are called as dual Reex. Every dual Reex runs along one path
of one-way motion and one or more paths of reciprocating motions at
the same time, and therefore appear as both energy and matter at the same time.
A dual Reex will have more reciprocating paths and appear more like matter when
its speed along the one-way path decreases; it will have less reciprocating
paths and appear more like energy when its speed along the one-way path
increases, in both of which changes are continuous in the one-way path’s speed
but discontinuous in the reciprocating paths¡¯ number. The more a dual Reex appears as matter, the
heavier its
gravitational mass becomes and the bigger its space grows.
All dual Reex originated from the pure
energy and will afterwards end as the pure matter. Our
U. Autumn, therefore, exists as the intermediate course from the pure energy to
the pure matter. Different from an explosion like the so-called Big Bang, the
U. Autumn is a course of gradually and repeatedly consuming energy and
producing matter. All the changes from energy to matter or vice versa happened
during this course is called as life, and there are two sorts of lives
in our universe, the dominant one is called as autumn life, another one spring
life. The spring life consumes matter and produces energy and the autumn
life consumes energy and produces matter. As dual Reex, both lives are composed
of two components, the matter component and the energy component. The state in
which an autumn life loses all its energy components, caused by the decreasing
of energy density in its direct environment, is called as cold death of
the life. The remnant matter components of an autumn life after its cold death
are called as frozon. All dark matter and atomic nuclei are such
frozons. Because our universe is a course from pure energy to pure matter,
there will be more and more matter but less and less energy in our universe,
therefore, the earlier in the course a frozon was produced, the more
reciprocating paths it possesses now, the heavier its gravitational mass
becomes, and the bigger its space grows. There were frozons that had been
produced before atomic nuclei were produced and therefore possess much more
reciprocating paths now, much heavier gravitational mass and much bigger spaces
than any baryonic matter. They are the non-baryonic dark matter. The
proportions of the non-baryonic dark matter found from different universes in
the U. Autumn are not the same. The nearer a universe exists to the beginning of
the U. Autumn and to its own beginning, the more dark matter it may contain. The earlier a dark matter
was produced, the earlier it would break up, and in the end all the dark matter
and other matter will break up and disperse into pure matter in the U. Winter.
The growing of our universe’s space,
corresponding to the increasing in matter and the decreasing in energy in it,
might be the reason why the color of the light coming from cosmological objects
far beyond Earth shifts toward the red end of the spectrum.
SCIENCE
submission confirmation number: 37612