Here is a current story on the magic of gravitational lensing. http://www.bbc.co.uk/news/science-environment-27118405
At the cosmological level - light is bent and amplified by gravity, appearing far brighter than it is - due to a large galaxy being located directly in our line of sight. The analogy for spinplasmonics, and it is only an analogy - is that an extremely large but localized magnetic field can act as a lens for IR photons. When a monatomic atom of hydrogen becomes densified (via spinplasmonics) as a DDL particle with the electron orbital at only a few Fermi in distance, can it act as a lens for photons? If so, you heard it first on Vortex :-) Here is the oft-cited paper on DDL with calculations. http://www.fulviofrisone.com/attachments/article/359/Electron%20Transitions% 20on%20Deep%20Dirac%20Levels%20II.pdf With this kind of "shrinkage" (i.e. diminution in geometry) for the hydrogen atom, the inverse square relationship makes both the magnetic and electric fields of the DDL comparatively immense. The irony of that happenstance - for LENR is that the near-field electrostatic repulsive forces between two DDL atoms could make the possibility of nuclear fusion vastly less probable, while at the same time acting as a ultra-strong magnifying lens for photons. Photons from 3-space could be lensed into one dimension, where they are upshifted and reflected back into 3-space with added energy - even when the Dirac sea itself is not disrupted. That would be an alternative explanation for excess non-nuclear energy to appear in those reactions where little gamma radiation is seen.
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