"Ever since the beginning of quantum mechanics people have been looking for a configuration which could explain the stability of atoms and why orbiting electrons do not radiate," Dr Miroshnichenko said.
The absence of radiation is the result of the current being divided between two different components, a conventional electric dipole and a toroidal dipole (associated with poloidal current configuration), which produce identical fields at a distance.
If these two configurations are out of phase then the radiation will be cancelled out, even though the electromagnetic fields are non-zero in the area close to the currents.
Dr Miroshnichenko, in collaboration with colleagues from Germany and Singapore, successfully tested his new theory with a single silicon nanodiscs between 160 and 310 nanometres in diameter and 50 nanometres high, which he was able to make effectively invisible by cancelling the disc's scattering of visible light.
So basically if the alignment of the electric dipole and a toroidal dipole fields in the material are in phase, there's no scattering of visible light, but if the fields in the material are out of phase, there's a potential for a scattering process to occur in the material.
This has *huge* implications in the area of cosmology theory by the way. It goes another step further in explaining any "missing mass" that might not be easy to 'see' over great distances, simply because it's an ordinary dusty plasma in a phased configuration.
It demonstrates yet another flaw in the mainstream's claims about any need for exotic forms of matter to explain why we cannot see some forms of ordinary matter over great distances. It could simply be that ordinary matter in the form of a dusty plasma is simply not interacting with light that much due to the particular condition of that plasma. Particularly over large distances, the net effect could be huge and highly significant. There's no need for exotic forms of matter to explain why it's difficult for us to see every form and arrangement of *ordinary* baryonic materials.
There's never been any need for exotic forms of matter to even explain "missing mass", otherwise erroneously called "dark matter". All we need is synchronized arrangement in ordinary materials to explain why some forms of ordinary baryonic matter isn't easily observed.
Lambda-CDM is on it's way down the supernatural drain of physics. It's running headlong into the arms of EU/PC theory, and the realities of empirical physics by the day. There's never been a need for any form of exotic matter to explain any "missing mass" in spacetime. Since we live in an electromagnetically active plasma universe, there's really no limit to the way in which various electrons and protons and even positrons might be arranged and configured in materials in space.
Not only did they underestimate the stellar mass estimates by whopping factors of between 3 and 20 in that 2006 lensing study, they simply couldn't see some of the ordinary baryonic matter because it happens to be in phase.
Because EU/PC theory is based on pure empirical physics it is necessarily destined to replace and trump supernatural claims about cosmology physics eventually, and now the handwriting is most certainly on the wall with respect to exotic matter theory. You don't need an exotic form of matter to create a non scattering "dark" plasma, you just need the right phase in the plasma and/or dust in the plasma.
Not only that, he's actually demonstrated the effect in the lab! Wow!
Love it! Yeah for empirical physics!
