M Theory according to Cambridge UK

Cambridge is one of the leading authorities on String and M Theory

1> By introducing Supersymmetry to Bosonic String Theory, we can obtain a new theory that describes both the forces and the matter which make up the Universe. This is the theory of superstrings. There are three different superstring theories which make sense, i.e. display no mathematical inconsistencies. In two of them the fundamental object is a closed string, while in the third, open strings are the building blocks. Furthermore, mixing the best features of the bosonic string and the superstring, we can create two other consistent theories of strings, Heterotic String Theories. (Cambridge)

Complex QM describes how you can have open and closed strings and how you can go from one to the other.

2> Apart from the fact that instead of one there are five different, healthy theories of strings (three superstrings and two heterotic strings) there was another difficulty in studying these theories: we did not have tools to explore the theory over all possible values of the parameters in the theory. Each theory was like a large planet of which we only knew a small island somewhere on the planet............ Thus there is an underlying theory of which all string theories are only different aspects. This was called M-theory. The M might stand for Mother of all theories or Mystery, because the planet we call M-theory is still largely unexplored. (Cambridge)

This is a public acceptance that the present theory is incomplete and therefore there must be room for Complex QM to fill the gaps I have shown.

3> The image for the M Theory Planet (Cambridge)is more rudimentary than my own theory of complex wrapping.
On reflection here it seems that my theory requires the strings to vibrate sinusoidally (at least for a fundamental understanding). This may be an area where String Theory can be improved mathematically.
Again the uncharted waters shown allow for my theory of complex wrapping to fill in the details.

4> So we associate entropy to disorder. Black Holes have a huge disorder. However, no one knew what the states associated to the entropy of the black hole were. The last four years brought great excitement in this area. Similar techniques to the ones used to find the islands of M-theory, allowed us to explain exactly what states correspond to the disorder of some black holes, and to explain using fundamental theory the thermodynamic properties that had been deduced previously using less direct arguments. (Cambridge)

I do not agree that Black Holes are characterised by disorder. My Complex Tunnel (zunnel) determines the interior shape of a black hole that is very ordered.