Didn't Celani find out the superconductivity correlated with anomalous heat?
Superconductivity would seem to jive well with Axil's charge accumulation
theory. Metallic SWNTs exhibit "long coherence lengths". MWNTs exhibit
"ballistic conduction". Graphene exhibiting superconductive tendencies at
high temps. All these seems to point to a property that appears to be
critical for the initiation of anomalous heat - that of charge accumulation
that would screen the coulomb barrier.
Maybe we're all wrong with this, but to me, Carbon nanostructure-based LENR
is the way to go. Cause even if we perfect LENR+ (Rossi and DGT), we would
probably still be contrained to low to moderate temps (<450c). High Temps
made possible with LENR2 reactors would really open up all kinds of
possibilities, like thermal decomposition of water to H2 and thermal
gasification of waste to biofuel.
Jojo
----- Original Message -----
From: <pagnu...@htdconnect.com>
To: <vortex-l@eskimo.com>
Sent: Monday, July 16, 2012 2:20 AM
Subject: Re: [Vo]:superconductors and laser light
Jojo and Axil,
First, it does appear that superconductivity (not ballistic conduction) is
involved. The new paper involves nickel nanoparticles in MWCNTs. Here is
title and abstract:
Nano-carbon is pretty amazing. I find this subject quite difficult.
I have no idea whether anomalous superconductivity is essential to LENR.
Maybe extremely intense current densities cause some LENRs?
If so, then maybe these current flows can be triggered by various carbon
nanostructures, cracks in metal hydride surfaces, various colloidal
formations of metal nanoparticles, dielectric breakdowns, current
streamers and arcs, ...?
