Addition to the Article with Stepan Moskaliuk on the Inter Relationship of General Relativity and (Quantum) Geometrodynamics, via Use of Metric Uncertainty Principle
We take note of the material offered in [1] as to Geometrodynamics as a way to quantify an inter relationship between a quantum style Heisenberg uncertainty principle for a metric tensor and conditions postulated as to a barotropic fluid, i.e. dust for early universe conditions. By looking at the onset of processes at/shorter than a Planck Length, in terms of initial expansion of the universe, we use inputs from the metric tensor as a starting point for the variables used in Geometrodynamics.
References
[1]
Text of Original Article by A. Beckwith, and Stepan Moskaliuk.
[2]
Beckwith, A. (2016) Gedanken Experiment for Fluctuation of Mass of a Graviton, Based on the Trace of GR Stress Energy Tensor-Pre Planckian Conditions That Lead to Gaining of Graviton Mass, and Planckian Conditions That Lead to Graviton Mass Shrinking to 10?62 Grams. Journal of High Energy Physics, Gravitation and Cosmology, 2, 19-24.
http://dx.doi.org/10.4236/jhepgc.2016.21002
[3]
Meszhlumian, A. (1992) Towards the Theory of Stationary Universe. In: Akerlof, C. and Srednicki, M., Eds., Texas/PASCOS 92: Relativivistic Astrophysics and Particle Cosmology, Annals of the New York Academy of Sciences, Vol. 688, 464-471.
[4]
Beckwith, A. (2016) Gedanken Experiment Examining How Kinetic Energy Would Dominate Potential Energy, in Pre-Planckian Space-Time Physics, and Allow Us to Avoid the BICEP 2 Mistake. Journal of High Energy Physics, Gravitation and Cosmology, 2, 75-82.
http://dx.doi.org/10.4236/jhepgc.2016.21008
