Brian—
I reviewed your reference document that Jones identified.
The potential energy wells for the linear field and non-linear electric fields
in a
Quantum system are what I would expect in a one dimensional approximation.
However, keep in mind that a local B magnetic field at the location of
In reply to mix...@bigpond.com's message of Sun, 03 Dec 2017 13:33:57 +1100:
Hi,
PS - I think this is what I recollect reading some time ago:-
https://en.wikipedia.org/wiki/Variable_Specific_Impulse_Magnetoplasma_Rocket
Regards,
Robin van Spaandonk
local asymmetry = temporary success
In reply to Bob Higgins's message of Sat, 2 Dec 2017 07:01:42 -0700:
Hi Bob,
[snip]
>Hi Robin, Can you supply a link? The only thing I can find with ion
>thrusters is that the magnetic field is used to prevent the ions from
>striking the side walls. I didn't find anything that suggests that a
In reply to Bob Higgins's message of Sat, 2 Dec 2017 07:01:42 -0700:
Hi Bob,
[snip]
>Hi Robin, Can you supply a link? The only thing I can find with ion
>thrusters is that the magnetic field is used to prevent the ions from
>striking the side walls. I didn't find anything that suggests that a
Earlier today Jones referenced my work on energy localization and nanomagnetism
as a potential explanation for the Manelas device operation,
I never considered that inputing 2 of the three windings around the ferrite
core could result in a superwave condition. That makes so much sense. Why
I agree with the idea of adding a dimension to Holmlid’s laser setup—may be
expensive however, since lasers with the appropriate frequency may be necessary
to get good coupling. Given known quadrupole magnetic moments in various data
sources for the stable (and unstable} Ni nucleons, picking
Jones—
Nice research—superwaves.
I like the idea that proton motion in a lattice is considered to entail kinetic
energy. Here is one more mechanism for sharing potential energy of a coherent
system—the lattice of Pd or Ni atoms and all its constituents---with the
potential energy of the
Adrian Ashfield
December 1, 2017 at 11:20 AM
Dear Andrea Rossi:
You say the E-Cat QX worked at limited power during the Stockholm event at the
IVA (20 W). What is its real power?
Regards,
Adrian Ashfield
Andrea Rossi
December 1, 2017 at 12:31 PM
Adrian Ashfield:
Average 60 W, max for
I should have mentioned that another wrinkle on superwaves could employ light
waves - the so-called Letts-Cravens effect where laser irradiation of two
lasers impinge on a loaded lattice.
AFAIK – Holmlid has always used only one laser.
Perhaps he should superwave it ?
Another wrinkle would
Why superwaves?
A known mechanism for wave amplification in rigid structures is called “energy
localization” which can be a feature of nanoscale packing of hydrogen in a
lattice. When stimulated with two waveforms at different frequencies, a
paradigm shift can be engineered on the
Hi Robin, Can you supply a link? The only thing I can find with ion
thrusters is that the magnetic field is used to prevent the ions from
striking the side walls. I didn't find anything that suggests that a
magnetic field can turn high energy ion trajectories from an
omnidirectional source into
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