On Jan 22, 2011, at 3:54 AM, francis wrote:
Rich,
Nice translation of a very nice HNi reaction theory. He seems to
adopt a very transient appearance of these mini atoms similar to
deflation theory and ties it to another theory where the whole
“neutral” mini atom is captured inside the columb barrier. The
only point I would add is that he should have made some connection
regarding the bond states of these mini atoms which the required
environment seems to imply must be made to vary between h1 and h2.
He does say “That the formation of (transient) "mini-hydrogen
atoms" with the characteristics mentioned a moment ago, must
require high-energy electrons in the "delocalized plasma" in the
lattice, is crystal clear, I think:” which may be an indirect
acknowledgement of this mechanism.
Fran
PS could the translation of this captured mini atom back to normal
size be relativistic and translating the gamma radiation to a less
lethal form of energy?
I can not speak for Stremmenos. In the deflation fusion theory the
deflated state is a degenerate state of hydrogen. In other words,
the net potential plus kinetic energy is constant between the
deflated and normal states, and thus the two states have joint
simultaneous probabilities. Electrons with feasible degenerate
states have their wavefunctions simultaneously occupying both states,
even if a forbidden zone separates the space of those two states.
From a more classical point of view, the degenerate state can be
occupied periodically by tunneling or hopping to that state and back
frequently, with femtosecond order transactions, because no energy is
involved in the hop. There is no radiation involved in the hop In
the deflation fusion scenario, a degenerate small radius state is
what is involved in fusion creating tunneling events. The small
electron state plus hydrogen nucleus is tunneled to or does the
tunneling jointly. Post fusion, after the strong force taking effect,
the degenerate state of course disappears, and the electron is trapped.
This is an aspect of deflation fusion that distinguishes it from most
other theories. Most other theories, such as hydrino theory, require
a sub ground state bound electron. My theory works with ground state
or near ground state electrons, i.e. the partial orbital electrons
present in the lattice. Neither molecular hydrogen H2, nor atomic
hydrogen, which is even larger, fit into typical lattice spaces. The
orbitals involved around the hydrogen nucleus are thus typically
continuations of the lattice electron states, and I called their
transient near-hydrogen states "partial orbitals".
It may be of interest that the deflated state orbital is highly
relativistic, while the partial orbital state may or may not be.
Spin 0 orbital states which transit the nucleus can be highly
relativistic near the nucleus, and may even be necessary to the
formation of the deflated state. A rough estimate of the nature of
the deflated quark state was provided here:
http://www.mtaonline.net/~hheffner/FusionUpQuark.pdf
You can see that relativistic computations are necessary to get any
kind of a deterministic picture of the state. It is a key feature
of the deflated state that the deBroglie wavelength of the electron
and nucleus for the most part do not overlap, and they thus orbit
each other as independent entities.
In the highly de-energized post fusion state, the electron-nucleus
interactions result in numerous low energy photons, instead of a
single high energy photon, or pair of photons, carrying away all the
energy.
Best regards,
Horace Heffner
http://www.mtaonline.net/~hheffner/
