They are Bose particles with zero spin and are electrical neutral.   They are 
held together by gravity, which, as suggested by Unified Gravity. works at 
small distances in an unexpected way.

High energy EM radiation may interact, if it has the correct resonant frequency 
to react with the heavy Bose particles making up the defuse heavy matter in 
galaxies, given  that  such heavy matter has not been swept into a black hole.

Bob Cook

________________________________
From: Bob Higgins <rj.bob.higg...@gmail.com>
Sent: Thursday, November 9, 2017 8:36:41 AM
To: vortex-l@eskimo.com
Subject: Re: [Vo]:UDH, wimps, and dark matter

But why would such large particles be weakly interacting?


On Thu, Nov 9, 2017 at 8:14 AM, JonesBeene 
<jone...@pacbell.net<mailto:jone...@pacbell.net>> wrote:
Recently there have been a flurry of News articles about the lack of success in 
finding DM - but the favored candidate is still the WIMP

AFAIK there is no satisfactory definition for WIMPS {after all they are dark 
and hard to observe} other than


  1.  Weakly interacting to an extreme but massive
  2.  Mass-energy of between 50 and 100 GeV fits into current theory
  3.  Suspiciously close to the Higgs in mass and other features


https://en.wikipedia.org/wiki/Weakly_interacting_massive_particles

Since they are weakly interacting to a spectacular degree, they could and 
probably do exist primarily in another dimension or as part of the Higgs field. 
One possible decay channel would be for the Higgs boson to decay to two WIMPs, 
each having a rest mass energy of half of the 126 GeV Higgs or about 63 GeV for 
the WIMP. A putative buckyball of UDH would have about the same mass equal to 
60 atoms of UDH as in the carbon model.

This is the candidate for WIMPS not yet considered – and in effect it is UDH in 
the form of a bound H60 buckyball – perhaps hidden in the Higgs field which 
itself is another dimension.




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