At 09:55 AM 9/21/2012, Daniel Rocha wrote:
Except in the case of TSC theory and Akito explicitly agreed with me
on this point. The difference it is that the major decay channels,
or of their associated secondary radiation, carry low energy. A
bubble from these processes, which is a micro or nanobubble, puts a
lot of H/D close to each other and in phase. Because of this, I
don't think cold fusion - sonofusion should be ruled out so easily.
Highly unlikely in this case, Daniel. There is essentially no
evidence connecting the LeClair effect and cold fusion, not even
claimed. The LeClair effect, on the face, is similar to prior bubble
fusion work, except for being massively successful, if the claims are
true. By the way, LeClair's work is with light water.
TSC theory involves cluster formation at very low local temperature,
as applied to cold fusion. (The clusters are at close to absolute
zero, or the condensate will not form. This should not be confused
with bulk temperature, which is on the order of room temperature for
cold fusion, and TSC formation would definitely be in material in the
solid state (or in very close proximity to material in the solid
state). Definitely, hot clusters are out of the question. The
collapse cannot take place at high relative temperatures.
But I'd like to know if any 3rd party verified this Le Clair effect.
No, there are no reports, not even verified analysis that shows a
serious anomaly. No independent observation of anomalous effects,
even. The LeClair effect has not been successfully demonstrated, as
far as I've seen.
There was an attempt at NRL. As I recall, that's a demonstration that
supposedly made LeClair extremely ill "from radiation poisoning."
However, nobody else reported such a result (except maybe LeClair's
partner, Lebid, who is strangely silent).
Really, almost everything we "know" about the LeClair effect comes
from LeClair, and it's incoherent.
2012/9/21 Abd ul-Rahman Lomax
<<mailto:[email protected]>[email protected]>
It's well-known and not controversial: CF/LENR isn't hot fusion.
--
Daniel Rocha - RJ
<mailto:[email protected]>[email protected]
