Dave, I was looking at Rydberg matter densities and Inverted Rydberg densities from this paper from Miley and others.
http://www.phys.unsw.edu.au/STAFF/VISITING_FELLOWS&PROFESSORS/pdf/MileyClusterRydbLPBsing.pdf On Sunday, September 2, 2012, Terry Blanton wrote: > On Sun, Sep 2, 2012 at 7:59 PM, David Roberson > <[email protected]<javascript:;>> > wrote: > > I assume you refer to inverse Rydberg (f/h) matter here. Normal Rydberg > > matter is less dense from what I have seen. > > No, I refer to hydrogen with extra energy which forces the electron > into a higher energy state near ionization. The electron is in a > widely eccentric orbit who's perigee brings it close enough to the > nucleus that it imitates a neutron and whose apogee is near > ionization. > > T > >
