Jones,
I recall phonons are wave propagation on a sea of surface
electrons rather than electron flow through the medium but I wasn't aware they
or even plasma were capable of modifying casimir force. Your citation suggests
both are well known properties. I agree plasmons make an ideal tool for
modifying Casimir geometry via laser stimulation and would seem to support the
majority opinion that most of these anomalies occur near the surface where
plasmons are created as waves on the sea of surface electrons. Modell has done
the math based on SED that there is no "push back" from the hydrogen atoms
relative to change in Casimir geometry when pumping hydrogen through changes in
casimir geometry so modification of force by changes in the "effective" plate
position due to phonons in the plate geometry should modify casimir force at no
energy cost. Those fractional hydrogen atoms close to the threshold between 2
different fractional states could be synchronized to the phonon frequency
...and then once you get 20% synchronized ..the metronome n platform effect?
Their mention of plasma as a known modifier of Casimir effect also has me
wondering about the hydrogen ions in surface clouds along the mirror surface -
if they can also affect the value dynamically.. It is starting to sound like a
static casimir value is already a rare thing for a stationary observer inside a
cavity much less a moving gas atom or molecule, you have sound, piezoelectric,
magnetic fields, laser stimulated plasmons and plasma generation all modifying
casimir from the value established by the geometry. DCE may actually be harder
to avoid than induce but we really don't know how large these variations are or
need to be to cause anomalous heat. I think that gas loading is crucial to
establish firm linkage between the fractional hydrogen in the cavity and those
in the lattice surface. The self-organizing lock step may be like a low
frequency carrier establishing the linkage to the vacuum modified hydrogen in
the cavity but still needs a synchronization scheme and an energy rectification
scheme, plenty of theories to choose from on what causes the energy
rectification but phonon synchronization of the "metronome" sounds plausible
via the gas loaded "platform".
Fran
From: Jones Beene [mailto:[email protected]]
Sent: Wednesday, June 19, 2013 11:57 AM
To: [email protected]
Subject: EXTERNAL: RE: [Vo]:Casimir Effect -great summation!
From: Roarty, Francis X
I went looking for temporal anomalies related to casimir effect. This link,
http://www.andersoninstitute.com/casimir-effect.html
Fran,
Don't know if you have already mentioned this paper, but it fills in another
part of the Ni-H puzzle or thermal gain with no nuclear indicia.
http://arxiv.org/abs/0706.1184
"The Role of Surface Plasmons in The Casimir Effect" by Intravaia et al 2007
"We evaluate analytically the contribution of the plasmonic modes to the
Casimir energy. Surprisingly we find that this becomes repulsive for
intermediate and large mirror separations." END
Since micron-sized particles with nano-sized inclusions (such as the
Ahern/Arata powder) combine large separation geometries with the surface
features that promote plasmons, we have now apparently found the way that the
Casimir force becomes involved.
This is not at all suggestive of an effect which would enhance nuclear fusion,
which would seem to require an attraction force. Instead it is suggestive of
superradiance, where thermal coherence develops from group dynamics of
particles moving together with more energy than is input into the system.
When phonon and photons vibrational dynamics merge at a single frequency in the
8-20 THz range, they would become self reinforcing. This would be nearly
lossless, but not gainful in itself. Gain would derive from outside the system
in several possible ways:
1) ZPE as introduced by the Casimir force in a dynamical way
2) Electron angular momentum, due to ground state redundancy
3) A combination effect where 1) is responsible for 2).
This coupling of phonons and photons is pretty close to the definition of the
polariton.
Now we know a more precise methodology in which Casimir force can also
contribute in a dynamical way via surface plasmon interaction ... and we know
the precise thermal range where this happens.
Jones
