Axil-- I vaguely agree with what you have identified is significant. However, the information presented is hard to follow--one needs to be familiar with the nomenclature and the theories to fully follow the slides. I did gather that there is a one dimensional control that occurs with a magnetic field affecting the quarks such that they become aligned by spin. I did not follow why the charge separation occurs in the population of quarks. It must be that the spin of a quark causes like charged quarks to come together in the one dimensional space and hence repel each other as the magnetic field is relaxed. But why are the charges not mixed to begin with and maintain an homogeneous mix even though spin alignment has occurred?
Bob ----- Original Message ----- From: Axil Axil To: vortex-l Sent: Friday, April 25, 2014 1:33 PM Subject: Re: [Vo]:They're finally catching up! To identify the slide, The slide has this verbiage as follows: • local CP-violation through domains with Qtop 6= 0 ? • detect them through magnetic field B [Kharzeev et al. ’08] 1. quarks interact with B: spins aligned 2. quarks interact with topology: chiralities (helicities) “aligned” 3. result: charge separation QCD On Fri, Apr 25, 2014 at 4:13 PM, Axil Axil <janap...@gmail.com> wrote: http://hector.elte.hu/budapest14/slides/endrodi_0203_0204.pdf Search on the following to get to the referenced slide: Chiral magnetic effect A magnetic field will align the spins of the quarks that comprise a subatomic particle along the magnetic field line and this will cause charge separation. This makes quark spin one dimensional. Therefore the magnetic field will blow the subatomic particle apart since like quark charges repel each other.