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From: Axil Axil janap...@gmail.com
Subject: Re: [Vo]:New Lattice Energy on Hi-Temp Superconductivity LENR
To: vortex-l@eskimo.com
Date: Wednesday, September 12, 2012, 11:10 AM
This increase in conductivity is casued by the formation of cooper pairs of
protons through the action of thr Shukla
On Tue, Sep 11, 2012 at 11:15 PM, Jeff Berkowitz pdx...@gmail.com wrote:
In either case, we might have a peculiar state in which bulk material (e.g.
Celani's wire) is intermittently (patchily) superconductive along the
path of current flow. This might be observed as a sort of average, i.e. a
Thanks, Lou. In Larsen's slide 8, he wonders: Just before 'going nuclear',
does 'patch' become an evanescent HTSC? Now these fractal HTSC links you
have provided discuss behaviors that occur on scales vastly larger than
nanoscale, but smaller than bulk materials.
In either case, we might have a
The Shukla-Eliasson (SE) force is one of the main actors in cold fusion.
The other is charge screening which is the triggering process .
Also high electric charge concentration produces degenerate electrons.
http://arxiv.org/pdf/1209.0914
Clustering of Ions at Atomic-Dimensions in Quantum
- proposes that high temp superconductivity may develop in surface
plasmons when very high (10^11 V/m) E-field gradients develop at the
interface between collectively oscillating electrons and collectively
oscillating protons.
snip
They are getting closer. Next they must dump the neutrons
For any here puzzled-
Pointing out the obvious:
If, while temperature is rising, some increasing portion of a resistive
conductor becomes superconductive, the overall resistance of the entire
conductor will decrease. If this decrease exceeds an increase which
temperature rise is causing at the
This increase in conductivity is casued by the formation of cooper pairs of
protons through the action of thr Shukla-Eliasson Attractive Force. See my
last post - Friedel oscillations
Cheers: Axil
On Wed, Sep 12, 2012 at 2:02 PM, David L Babcock ol...@rochester.rr.comwrote:
For any here
Also if you go to the later slides in the presentation Lou originally
posted, there is some mention of experimental evidence for something like
non-monotonic resistivity - it may be described as wild swings (?) on
the slide). I haven't searched the archive for the reference(s).
Jeff
On Wed, Sep
David,
I agree. If the resistance fluctuates under constant potential, transient
superconductivity, or ballistic conduction may be occuring. If the
resistance follows the same deterministic non-monotonic path each time the
voltage is swept, then maybe something like Esaki-diode (differential)
Low Energy Neutron Reaactions (LENRs)
http://www.slideshare.net/lewisglarsen
-- or at --
http://www.slideshare.net/slideshow/embed_code/14256059?hostedIn=slidesharereferer=http%3A%2F%2Fwww.slideshare.net%2Flewisglarsen#
- proposes that high temp superconductivity may develop in surface
plasmons
Lasers not necessary? Hasn't Celani been reporting a negative temperature
coefficient of resistance that appears about the time his processed wires
begin producing heat? I might have this wrong ...
Jeff
On Tue, Sep 11, 2012 at 9:59 PM, pagnu...@htdconnect.com wrote:
Low Energy Neutron
To answer my own question: yes, here
http://lenr-canr.org/acrobat/CelaniFcunimnallo.pdf on page 3, in item (3)
of the numbered list.
Of course, it could be some unrelated effect; but decreasing electrical
resistance with increasing temperature is very odd, and it certainly is an
interesting
Jeff,
The reports cited in the presentation are of hi-temp superconductivity (I
believe), rather than just non-monotonic resistivity vs. temp phenomena.
It may be worth looking at the recently reported hi-temp superconductivity
seen in fractal materials - e.g.,
High-temperature
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