Mark and Dave--
I would say the protons first come together as Cooper pairs. This
anti-parallel alignment may be assisted with magnetic fields associated with
the cavity. The paired protons never stop as has been suggested, since they
never act like a billiard ball in a classical sense. They
Hi Dave!
Hope all is well in Robersonville…
Now to answer your questions…
“are you thinking of the protons (in the case of hydrogen) as being waves
instead of particles? If so, would not protons be extremely tiny wave packets
due to their large mass? In my estimation this would tend to
In this email I mull over and ponder things, if this strikes you as too
long, please just read the below *bolded* and *italicized* *sentence*.
And to clarify, by enhancing the signal in the quantum vacuum, I mean
enhancing the wave function of the particle.
To use boats as an analogy, enhancing t
*Effects of Spin-Dependent Polariton-Polariton Interactions in
Semiconductor Microcavities: Spin Rings, Bright Spatial Solitons and
Soliton Patterns*
http://etheses.whiterose.ac.uk/3872/1/SICH_eThesis.pdf
A polariton BEC is a different animal from a matter based BEC. It involves
a process of ener
Enhancing the power of the quantum vacuum is done by enclosing it within
cavity inside of matter. This restriction is squeezing distance to favor
energy.
On Tue, Dec 30, 2014 at 3:30 PM, John Berry wrote:
> My argument though would be that maybe rather than having zero
> temperature, maybe quant
My argument though would be that maybe rather than having zero temperature,
maybe quantum effects occurs due to enhancing the power of the quantum
vacuum.
Consider that what we have here is in a sense a signal from the quantum and
noise from temperature.
If we lower the temperature, the noise is
Hi John:
To answer your two questions:
- Emphatically No
- Huh? J
I will go into greater detail about what temperature is when replying to Bob’s
response…
But to answer your second question, what is ‘hot’ ??? That’s an imprecise and
relative word…
Start out with any atom which is at
.
Dave
-Original Message-
From: H Veeder
To: vortex-l
Sent: Tue, Dec 30, 2014 1:16 pm
Subject: [Vo]:Re: [Vo]:RE: [Vo]:FYI: Strong light–matter coupling in
two-dimensional atomic crystals
Suppose you imagine the atoms as stationary and imagine the cavities as in
motion instead
Suppose you imagine the atoms as stationary and imagine the cavities as in
motion instead. When two cavities collide do they generate heat or destroy
heat?
Harry
On Tue, Dec 30, 2014 at 10:52 AM, MarkI-ZeroPoint
wrote:
> Dave:
>
> If my hypothesis is correct as to what the conditions are like i
Mark-- For some reason I have not received Axil's comments, however, the
definition of coherence needs to be clarified.
I have always thought that coherence means that a quantum system exists of
various matter with one quantum state and a single wave function. In a BEC
there is only only wave
The more coherence between a set of waves, the stronger the coupling
between them; the more discordant, the weaker the coupling.
Ironically, as new external energy is fed into the BEC the coupling is
continually renewed.
That energy is nuclear binding energy and Fano resonance will continue to
p
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