In my opinion, an inverse Rydberg atom can not exist in isolation. Such inversion may only happen in an excited and/or ionized crystal formation of hydrogen. How the group motion of the elections and protons in such an arrogation in and among each other is not clear; that is, how the details of the compression of protons happen.
What the experimental indications for this form of compressed hydrogen that backs items 4 and 5 in the referenced paper are not stated in that paper. This is a flaw in the paper. On Tue, Apr 8, 2014 at 2:13 PM, Teslaalset <[email protected]>wrote: > Bob, you are probably right, this likely is pointing at inverse Rydberg > matter. > > Rob. > > Op dinsdag 8 april 2014 heeft Bob Higgins <[email protected]> het > volgende geschreven: > > Keep in mind that "Rydberg matter" does not normally describe "shrunken" >> hydrogen. Shrunken hydrogen has its electron in a reduced orbital at an >> energy state below the normally accepted ground state. This has been >> variously described as "inverse Rydberg" and "fractional Rydberg" or >> "hydrino" (Mills) states that are all below ground level. Mills describes >> multiple fractional states below ground level. There is an older reference >> to a Deep Dirac Level or DDL that is also a shrunken hydrogen. >> >> >>> >>> >>> >>> >>
