Interesting comments here, thanks.
I do believe that NMR is the way to go for easiest and most reliable detection,
especially with carbon. Pure carbon should have only one peak – 13C. Nothing
else.
Basically there would be two kinds of carbon to test – old and young. Old
carbon as defined
The magnetic resonance states of the fC13 would be easy to test for and should
say much about the nature of the entity, if it exists. An unpaired electron
in a 1p H(0) would certainly have a unique signature IMHO. The key would be to
get enough to test.
Bob Cook
From: Bob
In reply to JonesBeene's message of Sun, 27 Aug 2017 16:26:31 -0700:
Hi,
Following on from Bob's comments, it occurs to me that a small neutral Hydrino,
which has large magnetic moment, might be attracted to nuclei, with an odd mass
number, magnetically.
The force of attraction would increase as
What might carry the Ultra dense hydrogen in the Rossi fuel is its lithium
content. A method used in hydogen storage is nanoconfinement where lithium
hydride is encapsulated in other material to protect it. The lithium
particles in the Lugano fuel assay had many other elements incorporated in
its
http://large.stanford.edu/courses/2016/ph241/yoon1/
The Curious Story of the Muon-Catalyzed Fusion Reaction
The Curious fact is that LENR produces mostly muons from the energy that it
generates from nuclear reactions and very little heat.
These muons push out covalent electrons that bind
Hi Bob,
Thanks for your analysis and let me clear up one detail.
I did not make it clear enough that I am not suggesting the Holmlid version,
nor the Mills version, nor the Miley version of dense hydrogen - but a
composite, where the charged UDH- is a negative particle (aka hydrino hydride)
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