All
stabilisation particles begin their formation at speeds
substantially exceeding lightspeed and in an
understable condition. In
the case of photons and electrons this understability
enables them to decelerate by differentially ejecting mass and
energy until they reach stability, and with their stability maintained thereafter
by their internal
processes. Pettyblackholes are different in that they have no
internal mechanism that maintains their mass and/or energy measures at a
specific level so they differentially eject mass and
energy until they become stable or until they dissipate to nothing.
Pettyblackholes
are not ejected into empty space. The Universe is filled with
"wall to wall"
gravitysheaths and the larger of these gravitysheaths
contain
gravitonospheres which may or may not extend out to their
respective
gravitysheath interfaces. Within their gravitysheaths, these
gravitonospheres are formed into
gravitonstreams each of which will
have, at
any particular place, a measure of
dynamic mass. It is into this morass of gravitonospheres that pettyblackholes are ejected.
Pettyblackholes are passive in that they attune themselves to the dynamic mass of
the gravitonstream they are moving within. For many this results in
dissipation but some survive for a while at least. That said,
pettyblackholes are produced in such prodigious numbers that there are
always more coming to replace those that dissipate.
Where the
dynamic mass of a gravitonstream is low, pettyblackholes can survive
for long periods. Such gravitonstreams are common in the outer regions
of the gravitonospheres of galaxies. Thus it is that pettyblackholes are a
substantial element of the mass of the darkmatter that is slowing
galactic contraction.