Hi Mark,
Ok not cavities. Are you saying these internal oscillatory
frequencies of reactants change at different rates when raising OR lowering the
temperature such that you can hit upon a common temperature where they
oscillate at the same or harmonic of each other? Still waiting for someone to
put all the pieces together nicely but am seeing where this phenomena really is
a perfect storm of balanced temperatures and resonances. Makes me wonder about
the waveform used by Rossi again, does the IR freq of heaters shift a little or
only pwm of the same frequency? IOW is the pwm being used to fine tune an
exact freq needed by the plasmons .. If I understand the conjecture this
linkage between IR and plasmon then enables the next coupling between the
plasmon electron waves and photons above the wave surface. Also, I don't know
if this is supposed to be interfacing directly with the odd spectrum blue light
or is there yet another step..I know Axil and Jones mentioned silicon carbide
as likely target for plasmon resonance but there doesn't seem to be a consensus
on whether or how long fractional hydrogen can continue to exist once it leaves
the Ni geometry that allows it to form. It would be nice to see the interface
immediately since plasmons have this photonic ability but if not then what is
the missing step? Anybody>
Fran
From: MarkI-ZeroPoint [mailto:[email protected]]
Sent: Monday, July 01, 2013 12:34 PM
To: [email protected]
Subject: EXTERNAL: RE: [Vo]:Of Reaction Rate and Resonances...
Mornin' Fran,
If you're referring to Casimir cavities, then no.
In this thread, I'm not thinking about NAEs or dislocations, but simply bulk
matter (the referenced PhysOrg paper was methanol and an oxidant injected as
very cold gasses, IIRC)...
Hard to put into words, but changing the temperature of two substances changes
their internal oscillatory frequencies, but NOT by the same amount. Thus, as
one adds (or REMOVES) heat, the two substances diverge further away from being
in resonance... continue the process and their internal oscillatory frequencies
will begin to converge and come into resonance. Unless you know the *exact*
temperature are which the resonance occurs, you'd go right past it and never
see anything unusual... ergo, the laws for bulk matter. That's why these
scientists were so surprised at the 50x enhancement of reaction rates since the
laws of bulk matter are incomplete.
"If our results continue to show a similar increase in the reaction rate at
very cold temperatures, then scientists have been severely underestimating the
rates of formation and destruction of complex molecules, such as alcohols, in
space"
-Mark
From: francis [mailto:[email protected]]
Sent: Monday, July 01, 2013 7:04 AM
To: [email protected]<mailto:[email protected]>
Subject: re: [Vo]:Of Reaction Rate and Resonances...
I KEEP SAYING, ITS ALL ABOUT RESONANCES.
Mark, so a lower temp correlates to a larger cavity? I am trying to imagine
this but sticking on heat sinking vs heat emission, can heat sinking have a
resonance where it sinks better? 50 times better? I like the concept but is
there any foundation?
Fran
First, this will also tie in with Harry Veeder's posting earlier today
titled:
Subject: "[Vo]:MFMP and phonon resonance temperature of Cu"
Here is the link to the article that is 'Yet Another Clue':
"The quantum secret to alcohol reactions in space"
http://phys.org/news/2013-06-quantum-secret-alcohol-reactions-space.html
"Chemists have discovered that an 'impossible' reaction at cold temperatures
actually occurs with vigour, which could change our understanding of how
alcohols are formed and destroyed in space. To explain the impossible, the
researchers propose that a quantum mechanical phenomenon, known as 'quantum
tunnelling', is revving up the chemical reaction.
