From: Axil Axil
The model that describes this type of system is the
Jaynes-Cummings-Hubbard (JCH) model
http://en.wikipedia.org/wiki/Jaynes%E2%80%93Cummings%E2%80%93Hubbard_model
The connection I made is the same one that is made in this
model of polariton bound states including specific reference to the analogy
of the Josephson effect.
The connection of dots is not required, there is
Nanoplasmonic science behind the point I made.
This model works fine for visible or IR light photons but has little
applicability that I can see for gamma radiation. It's all about relative
proportion and wavelength. Nanocavities are wonderful for radiation coupling
of wavelength which are in the proper geometry - which can go up into the UV
range but this is orders of magnitude too long to be relevant to gamma
coupling. Even one nanometer is still UV range.
I am not sensitive. I am only countering ill-informed
opinion.
Not exactly - your present conduct indicates that you do not want to address
informed opinion. If you have references for the JCH model being relevant to
gamma radiation coupling, then by all means, let's see them.
When someone resists your bullying, you want them to leave
the forum rather than discuss the issue in an tolerant manor.
An appeal for factuality is not bullying. My apology if you got that
impression - if you really do want to discuss gamma thermalization in a
scientific manner, let's do that. What you describe as bullying, is what I
describe as requiring either factual evidence, or a good indication that
factual evidence will be forthcoming in a timely fashion.
I have not yet seen any indication, not the slightest bit - that gamma
radiation can be adequately shielded, suppressed or thermalized once
emitted. However, I am fully open to that possibility if you can dredge up
the slightest good evidence - with the emphasis on "good".
A far easier tact is the Hagelstein route of finding an arguable way to
couple to the emitter BEFORE the gamma is emitted.
With gammas, once it's out, there's no getting it back in.
Jones
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