The tracks produced by LENR reaction ash in photographic film after a long
cool down timeframe, are interesting. These particles seem to be correlated
and coherent as if they are members of a entangled BEC condensate. They
travel over great distances in clusters that both separate and then
I did not recognize that black holes could be tachyons. Here is how:
The Inside Story: Quasilocal Tachyons and Black Holes
http://www.slac.stanford.edu/cgi-wrap/getdoc/slac-pub-11616.pdf
The SPP could be well be a tachyon.
I did not recognize that black holes could be tachyons. Well, you learn
something new everyday. Here is how:
The Inside Story: Quasilocal Tachyons and Black Holes
http://www.slac.stanford.edu/cgi-wrap/getdoc/slac-pub-11616.pdf
The SPP could be well be a tachyon.
You might be right Axil, These days I certainly tend to think there is some
kind of collective disruptive or resonant behaviour that is exciting the nuclei
or causing them to act this way. I acknowledge your good arguments and evidence
for the formation of SPP's in these devices. It also seems
On Tue, Oct 20, 2015 at 2:21 AM, Stephen Cooke
wrote:
If any was produced we would need to balance this against those the energy
> required for pion production.
>
The amount of energy needed to create a free pion is large; the rest mass
for a pion is ~ 135 MeV.
I believe that what you imagine is what is happening in one of the many
cases involving SPP extreme magnetic projections and entanglement,
In case it is interesting I have found a couple of interesting papers on pionic
deuterium.
http://www.slac.stanford.edu/econf/C070910/PDF/290.pdf
I wonder whether they took the exothermic effects of hydrogen
absorption into account.
On Tue, Oct 20, 2015 at 2:38 AM, Jed Rothwell wrote:
> What I would like to emphasize is that the first study described here was
> an independent, stand-alone observation of excess heat
H Veeder wrote:
It seems to me that based on the given data it is possible to interpret the
> temperature difference between the empty vessel and the vessel with "fuel"
> ( their quotation marks) as resulting from either endothermic activity or
> exothermic activity in the
Mark Goldes
Chairman, CEO, AESOP Energy LLC
707 861-9070
AESOP Institute website: www.aesopinstitute.org
It seems to me that based on the given data it is possible to interpret the
temperature difference between the empty vessel and the vessel with "fuel"
( their quotation marks) as resulting from either endothermic activity or
exothermic activity in the vessel with "fuel".
Harry
On Mon, Oct 19,
On Oct 20, 2015 1:41 PM, "Jed Rothwell" wrote:
>
> H Veeder wrote:
>
>> It seems to me that based on the given data it is possible to interpret
the temperature difference between the empty vessel and the vessel with
"fuel" ( their quotation marks) as
Mark Goldes
Chairman, CEO, AESOP Energy LLC
707 861-9070
AESOP Institute website: www.aesopinstitute.org
Jed, there is contraditional info around, see:
http://www.sciencedirect.com/science/article/pii/S0360319914002389
(bottom of the page)
On Tue, Oct 20, 2015 at 7:37 PM, Jed Rothwell wrote:
> H Veeder wrote:
>
> It seems to me that based on the
These SPP are inherently coherent. This means that they all live in a state
of bose einstein condensation(BEC). When a nuclear reaction occurs within
this BEC, the nature of the nuclear reaction changes. Everything is
entangled. Super absorption and super-radiation comes into play. The rules
that
You are making a valid point. My bet is on the exothermic activity within the
fueled vessel since the other one should behave like any other random piece of
metal. The real question is whether or not enough time was spent generating
heat to eliminate the possible chemical reactions. I
Axil, Sounds very similar to creating the pyrophoric catalyst Rayney nickel
where the lower melting Al is leached out of the NiAl alloy leaving nano sized
pits. I think Mills likewise avoids reactive gases when using Rayney Ni such
that poisoning is avoided, H2 covalent bonding is available
Axil, does the hydrogen have to desorb from the surface of the Ni? I liked
everything you were saying to that point but still think the surface and
lattice are needed to form inverse Rydberg hydrogen. I agree lack of oxygen or
any reactive gases is key so the path of least resistance, covalent
The fuel preperation process that Rossi uses as exposed in apendex 3 of the
Lugano report shows that the surface of the 100 micron fuel particle is
impregnated with carbon being most likely in the form of nanosized graphite
particles. THese carbon particles are most likely melted into the surface
See please
http://egooutpeters.blogspot.ro/2015/10/oct-20-2015we-need-research-friendly.html
I think this has to be discussed. During the next days.
Peter
--
Dr. Peter Gluck
Cluj, Romania
http://egooutpeters.blogspot.com
On Tue, Oct 20, 2015 at 9:16 AM, Stephen Cooke
wrote:
Very true this is also true for the muon which has a rest mass for a pion
> is ~ 106 MeV.
This is one of the reasons I don't think muons are involved either.
Another reason -- if muons were being generated, you'd
One negative point to this idea I suppose is that if a pion is absorbed by a
nucleon pair in a nucleus the whole mass energy in the pion will be released so
if even a stationary pion was absorbed the final 2 nucleons in the pair will be
ejected with kinetic energy about 63 MeV each. I suppose
The SPP is also a analog black hole. This quasiparticle accumulates energy
in huge amounts and may become as massive as 1 million gigavolts. This
particle is also a tachyon that forms a condensate called a tachyon
condensate according to theory produces particles such as mesons.
On Tue, Oct 20,
With the lifetime of charged pions being approximately 26 nanoseconds (recall that the speed of light is approx. 1 foot /
nanosecond), there is still a "workable" amount of time using them to do "chemistry."
Here are some useful online papers/references to Hadronic Atoms, namely Pionic
>From what I saw of their experiment, the thermocouples (k-type) measuring
the two vessels were connected in series so that the measurement that came
out on the wires was the temperature difference between the two. This may
be more accurate than having two absolute thermocouples and subtracting
I was reviewing the latest analysis of Rossi's Ecat by Mr. Ruer. Over the last
few years I have posted many descriptions of the thermal behavior of a system
of this type with positve feedback being a consequence of the design.
The curves generated by Ruer match my first models fairly well and
'The amount of energy needed to create a free pion is large; the rest mass for
a pion is ~ 135 MeV'
Very true this is also true for the muon which has a rest mass for a pion is ~
106 MeV.
I'm not sure if muons can be generated without pions? muon pair production
would require even more energy.
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