Axil-- That's a much better presentation than the other one. I now understand the charge separation in the quark soup along a line.
In the solid state, the local effects of the magnetic fields that result from SPP AND SP conditions would seem to cause CME also at the location. With quarks coming loose and superconductivity who know what reactions may be taking place in Rossi Ni lattice. Bob ----- Original Message ----- From: Axil Axil To: vortex-l Sent: Saturday, April 26, 2014 12:01 AM Subject: Re: [Vo]:They're finally catching up! More: It looks like the magnetic field drives the quark in the same direction as its spin. This makes sense because two magnets will attract or repel each other along a line axial to the magnet pair. On Sat, Apr 26, 2014 at 2:48 AM, Axil Axil <[email protected]> wrote: http://physik.uni-graz.at/~dk-user/talks/Chernodub_25112013.pdf search for slides starting at The Chiral Magnetic Effect (CME) An electric super current is induced in the quarks because the direction of their momentums are changed by the magnetic field line. In the slide titled: The CME in heavy-ion collisions (II) Note that the Up quarks are flowing in a current in the opposite direction from the Down quarks because the momentum vectors are flipped by the magnetic field line. These various quark types are separated and moving in a group, This effect is shown with regards to quark plasma, but CME must be the same in stable subatomic particles in LENR because The Chiral Magnetic Effect (CME) acts on quarks in the same way as a universally applicable electrical process(without exception).
