I ran across an interesting recent paper on the collapse of coherent dipolar BECs when subject to confinement within an optical lattice.
http://arxiv.org/pdf/1205.5176v1.pdf Since Rydberg matter can act as a condensate if you remove the heat, I thought this was applicable. I realize the leap of faith in believing something that happens @ approx. 300K-500K lower temperatures applies to the CF case, but I see it just as believable as a fusion which typically happens at multi-millions of degrees K higher temperatures. On Mon, Sep 3, 2012 at 1:01 AM, David Roberson <[email protected]> wrote: > It would be ideal if the pseudo neutron can be formed which would then > penetrate the nucleus but I am afraid that the energy equations would not > balance. If there are two different paths to the same ultimate result, > they should release the same net energy. > > What would be the proposed reactions so that we can look at these? > > Dave > -----Original Message----- > From: Eric Walker <[email protected]> > To: vortex-l <[email protected]> > Sent: Mon, Sep 3, 2012 12:04 am > Subject: Re: [Vo]:RSH in Electric Fields > > Le Sep 2, 2012 à 7:07 PM, Terry Blanton <[email protected]> a écrit : > > > Okay, but what I'm sayin' is that in the crevasse of a partial crystal > > lattice, those partial bound electrons restrict where the RSH fermion > > might reside by exclusion. > > > > "Well, I can't go there." > > > > "And I can't go there." > > > > Fritz! Let's just plunge into this these here bound quarks and make a > > neutron. > > I was hoping the proton end of the mono-hydrogen Rydberg atom would behave > like > a pseudo neutron, avoiding the need for neutron production. > > Eric > >
