Using the Klauder enhanced quantization as a way to specify the cosmological constant as a baseline for the mass of a graviton, we eventually come up and then we will go to the relationship of a Planck Length to a De Broglie length in order to link how we construct a massive graviton mass, with cosmological constant and to interface that with entropy in the early universe. We then close with a reference to the possible quantum origins of e folding and inflation. We argue though that in making these determinations that there is a real undecidability, uncomputability and unpredictable issue as to if Quantum physics will emerge as the genesis of inflation, due to the variance as of input parameters. We submit that while the linkage to quantum gravity and entropy is very suggestive, but that making the case for an exact linkage may force us to rely upon experimental inputs along as to the mass of a graviton which may be frankly not computable from theory as we know it, but would be direct experimental inputs, hence satisfying the question raised by the context. i.e. in a purely theoretical sense, the linkage we seek between massive gravity and e folds may due to experimental inputs be classic “undecidability, uncomputability, and unpredictability would be defacto and not purely a theoretical modeling endeavor. A summary of what I think this entails is in section 5, at the end of this essay.
andrew beckwith