Jones--
Was there any indication that the Mizuno experiments used quadrupole
electric or magnetic inputs?
I was not aware of this, if it happened.
Also keep in mind that D is a Bose particle (as is 4HE) and can form a BEC
or a duplex BEC with two different Bose particles. This may be a reality in
a strong magnetic field, temperature be damned.
The question I have is how a BEC can shed energy and change the mass of its
constituents without disrupting the condensate. Maybe it is a series of
condensation and disruption that controls the reaction. The dynamics of
this process would be key to controlling the rate of the process.
Bob Cook
----- Original Message -----
From: "Jones Beene" <jone...@pacbell.net>
To: <vortex-l@eskimo.com>
Sent: Saturday, October 18, 2014 6:34 AM
Subject: RE: [Vo]:Mizuno, Rossi & copper transmutation
Bob,
I have cherry-picked three major “spin facts” from this compendium which
indicate that if one wants to apply a nano-magnetism or spin-coupling
modality to LENR, it is highly preferable to use deuterium, as opposed to
hydrogen. That may be why Mizuno chose the deuterium-nickel combination. All
eyes will be shifting to Mizuno in less than three weeks.
From: Bob Cook
[snip] The deuteron, being an isospin singlet, is antisymmetric under
nucleon exchange due to isospin, and therefore must be symmetric under the
double exchange of their spin and location. Therefore it can be in either of
the following two different states: Symmetric spin and symmetric under
parity. In this case, the exchange of the two nucleons will multiply the
deuterium wavefunction by (-1) from isospin exchange, (+1) from spin
exchange and (+1) from parity (location exchange), for a total of (-1) as
needed for antisymmetry…. In this case, the exchange of the two nucleons
will multiply the deuterium wavefunction by (-1) from isospin exchange, (-1)
from spin exchange and (-1) from parity (location exchange), again for a
total of (-1) as needed for antisymmetry. [snip]
…suggesting that there may be a way to stimulate the D via an electric
quadrupole input signal. Also with a magnetic moment the D must respond to
a magnetic field and fine tuning of an oscillating magnetic field may very
well excite the D to flip up and down in the field. The composite particles
of the D should have slightly different magnetic moments that can respond
and create an "excited" state IMHO on a transient short lived time frame.
However in a coherent system such a transient may be enough to cause other
transitions of similar energy states to occur with mass energy being changed
to angular momentum energy.
The quadrupole input is a strong clue.
