Now that we’ve got the Higgs, what’s next?
Combined with our knowledge of gravitation through general relativity, and the framework of quantum field theory describing all the standard model particles and how they interact with one another, it’s no stretch to say we’re sitting pretty, and that we’ve come an incredibly long way to arrive at our present understanding, especially considering practically none of this was known a century ago.
http://arxiv.org/abs/1207.1093
What Higgs?
String/M-theory and quantum gravitation; SUSY are empirical disasters. 45 years of grotesque theory derive from observed vacuum isotropy toward massless boson photons being assumed for fermionic matter. Furies of parity violations and symmetry breakings immediately appear. Take the hint – the vacuum is not isotropic toward opposite shoes.
http://www.mazepath.com/uncleal/erotor1.jpg
Test spacetime geometry with orthogonal atomic mass distributions to 1 part in 20 trillion difference/average.
Crystallography is chemistry not physics. If you need an aspirin, you want it synthesized not derived.