Its the dark matter phase alignment around the galactic center, not particle collisions.
Large
mass = small wavelength, Compton wavelength. These dark matter nulls points are very tiny, but they terminate long standing waves of phase
alignment across galaxies. The Compton wavelength is fundamental, can't
be violated otherwise you violate Plank. Think about it, if mass *
wavelength = plank/lightspeed, and the effective wavelength of gravity
is the solar system diameter, then any point where the gavity field
terminates must be a barely noticeible, lightweight zero point, mass.
Where did this dark matter 'field' come from? Kinetic energy in the
center of galaxies that could not be sustained. So these galactic
centers burp every so often, and the local gravity 'field' can't contain
the disturbance, so it moves out and leaves the vacuum with a phase
alignment that terminates at the edge of the galaxy. So we have these
mild, but very long standing waves covering the galaxies, separate and
undisturbed by gravity.
Look closer and try to see a common swirl pattern in the polarization. The galaxy phase alignment will be spherically symmetric about the center and cause swirl motion, I think.
But it puts gravity up on the order list, one of things my spread sheet needs to look at. I am starting to step thru the quantizer, and I have it rigged so it automatically adjusts for scale and should climb the order ladder with some efficiency.
- http://arxiv.org/pdf/1402.6703v1.pdf
Its the dark matter phase alignment around the galactic center, not particle collisions.
Large mass = small wavelength, Compton wavelength. These dark matter nulls points are very tiny, but they terminate long standing waves of phase alignment across galaxies. The Compton wavelength is fundamental, can't be violated otherwise you violate Plank. Think about it, if mass * wavelength = plank/lightspeed, and the effective wavelength of gravity is the solar system diameter, then any point where the gavity field terminates must be a barely noticeible, lightweight zero point, mass.
Where did this dark matter 'field' come from? Kinetic energy in the center of galaxies that could not be sustained. So these galactic centers burp every so often, and the local gravity 'field' can't contain the disturbance, so it moves out and leaves the vacuum with a phase alignment that terminates at the edge of the galaxy. So we have these mild, but very long standing waves covering the galaxies, separate and undisturbed by gravity.
Look closer and try to see a common swirl pattern in the polarization. The galaxy phase alignment will be spherically symmetric about the center and cause swirl motion, I think.
But it puts gravity up on the order list, one of things my spread sheet needs to look at. I am starting to step thru the quantizer, and I have it rigged so it automatically adjusts for scale and should climb the order ladder with some efficiency.