I just want to remind some folks here that H*-H*, the only existing from
of dense hydrogen (besides D*-D*) has been measured by multiple methods
by Randal Mills, now some 3 years ago. Also Holmlid tried to measure the
H*H* bond energy but he did work with clusters of H* that suffer from
multiple bonds.
The deep orbit models from Vavra, Meulenberg or others are just
mathematical fantasies, that violate basic physical laws. It's not
mathematics e.g. the Dirac equation that defines physics - its the other
way round physics defines the math that must fit.
So if you are interested in real physics check out R.Mills paper or Holmlid.
(R.MILLS, Brilliant Light Power Shareholder_Meeting_040319 ;
BRLP_Analytical_Presentation_060419.pdf, R.Mills, p.108)
J.W.
On 23.04.2022 21:22, Jones Beene wrote:
On the possibility of "dense helium" - shall we call it the "alpharino" ?
Helium, unlike hydrogen, will not diffuse through metals - so long as
the metal is nonporous. The first step in densification is (probably)
diffusion... but that problem may not be the end-of-story.
Raney nickel for instance is porous enough to pass helium and is also
is catalytic - as in the hydrino world of Randell Mills and his
Rydberg values. If Va'vra is right about helium shrinkage then a few
possibilities are opened up in the search for how that feat can be
accomplished.
An interesting experiment would simply look for anomalous heat as
helium is pumped through a Raney nickel membrane.
HLV wrote:
A simple argument that small hydrogen may exist
Physics Letters B Volume 794, 10 July 2019, Pages 130-134
https://www.sciencedirect.com/science/article/pii/S0370269319303624
Thanks for posting this. One curious observation is that there are
a few other atoms besides hydrogen which may 'densify' :
Presumably the dense version would provide anomalous heat.
Quote "Our calculation also shows that other fully ionized
“small-/Z/atoms” can form small-radius atoms... This would create
atoms, where one electron is trapped on a small radius,
effectively shielding one proton charge of the nucleus,.."
Comment/question: Doesn't this finding open up the possibility for
extracting anomalous heat from Helium?
There could be secondary advantages to using Helium over H - due
to inertness leading to ability to reuse the gas over and over ...
Is there any indication of a catalyst for forming dense helium ??
I don't know, but I have begun to wonder if frigorific radiation could
play a role in forming such atoms.
Also, for atoms below the ground state, I propose the term depressed
atom. This would compliment the term excited atom for atoms above the
ground state.
Harry
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Jürg Wyttenbach
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