well, I've been working in the virtual landscape of quark space. I did hint that I'd resolved my Hertzan Chimera Unit theory down from the hadrons to the quarks where it seems to sit quite nicely in fact. Click the animated gif image to see a full screen version showing how the bonding works.
As you'll see, the first 'line' represents the normal spin of a single HC Unit relative to the global X axis - a free quark - it's a one-axis spin, showing a linear 0 + 0 - rotation to the all in-falling Universal Equilibrium. This is still how the original HC Unit theory was proposed, one element with sinusoidal faces.
In standard atomic theory, any proton/neutron is made up of a combination of three quarks, ups and downs, and it's no different here - three spinning HC Units linked together (feeding each other ninety degrees out of phase) are the stepping stones to the higher atoms.
The second shape along shows 4-quark Dark Matter - what are the properties of Dark Matter? It doesn't bond with any other atom. Once Dark Matter is formed, there's no going back, no further atoms will result.
The third shape along shows Helium made of four groups of three HC Units - notice that at their centre is a 'virtual' dark matter. This formation offers no net charge.
The fourth shows Helium becoming Lithium notice how the (angularly speaking) very unstable Lithium5 quickly absorbs another HC Unit to resume the ninety degree out of phase ideal. I've extended this idea further so that, in the sixth image, Carbon becomes Neon. Notice how four 'virtual' Heliums cap off the periphery of the Neon, offering no net charge.
This is not a scientifically/mathematically provable theory at this stage, I can only show the shapes as 'my workings' but it's a novel approach to rethinking how quarks work and there's a possiblity of equating the relationship of the other two angles to the other two sorts of quark pairs.