When we pile together a lot of particles with spin into a critically small volume, the particles will self-generate a vortex current with a anapole magnetic field projecting normal from one side of the vortex.
This is a magnetic monopole quasiparticle. See here http://phys.org/news/2014-04-harnessing-magnetic-vortices-nanoscale-antennas.html Harnessing magnetic vortices for making nanoscale antennas “For example, in a magnetic disc with a radius of just 500 nanometers (billionths of a meter) and a thickness of just 25 nanometers, the disc can no longer support multiple domains and the spins align in a hurricane-like rotational pattern to reduce the overall magnetic energy. The spins parallel to the disc's surface rotate around a core, much like the eye of the hurricane, either clockwise or anticlockwise. And at the core, the magnetic spins point out of the disc's surface, either up or down. So this structure, a magnetic vortex, has four possible states—up or down paired with clockwise or anticlockwise.” This is an emergent property of spin and the critical size (500 nanometers and a thickness of just 25 nanometers) that forces vortex formation. No problem for LENR here, that relatively large dimensionality requirement is a very large maximum size specification as LENR applications go. When surface plasmon polariton (SPP) accumulate at the tip of a nanowire some tens of nanometers in diameter, the SPP’s will naturally form a spinning vortex as an emergent property of the spin of the ensemble of particles that will project an anapole magnetic field that disrupts nearby matter.
