Quantum m-theory

Quantum m-theory is an extrapolation of quantum statistical mechanics to include a vantage point in m-theory it has been called qm-theory and is a unified theory of astroparticle physics. Strickly a theory at this point, it suggests that projections of Hilbert space in the optical regime is the visible universe and thus the detectable one is a fact of black body radiation of a layered boundary of space-time at the limits of the universe. It is proposed to be derivable from quantum statistical mechanics. It is totally deterministic and involve measurement inside of the universal black body. The crux of the theory is that inside of this universal black body there is effects from next door universes in a m-theory. It talks of the contents of the black body instead of the output. However the output of the black body universe is a question and it expects that the cylindrical shape of our universe is an effect of recoil at the beginning of our set of space-time or during the big bang. It doesn't rule out string theory or m-theory individualy. It extracts the multiverse from m-theory however. The key to understanding qm-theory is in its unification. All of the universe is contained in its likelihood. As the likelihood aproaches all of the constituents of the universe the likelihood is maximized for its parameterspace. This is the details of computational likelihood theory which is just another way to discuss quantum statistical mechanics. The most recent connection is that the projective statistic that should be physical law is now a Hilbert space that can be seen with optics or detected with spectroscopy. By Dennis William Melton