Keshavarzi, the Muon G-2 Collection and the Muon puzzle.
Background: We started appealing to scholars in 2012 with basic questions about base-2 and the Planck natural units. We had our first Big-board that applied base-2 to the Planck Length. In 2014 we expanded it with time and in 2015 with charge and mass. We thought it was a great STEM tool and wrote it up. Still nobody knew quite what to do with all those numbers. There was a reluctance to be say anything.
In one of my appeals for a critical analysis (November 2016), Stanford University professor Andre Linde asked us to figure out the anomalous magnetic moment of the muon before going further!
Learning about Muons. It is good to come full circle, this time within the articles and thoughts of Alex Keshavarzi (physicist, University of Manchester) and a member of the Muon g-2 Collaboration (Abstract – PDF). With over 35 of the finest labs around the world within our finest schools, they are destined to figure out the anomaly. It seems they might figure it out faster with our input about how the wobble or “precess” may well be related to quantum fluctuations and geometries of the gap.
Now, to the best of our knowledge, all 35 members of the collaboration would affirm big bang cosmology. We will be asking them to suspend that commitment and to begin to see how the 64 notations might uniquely support the muon and its much lighter cousin, the electron. The magnetic fields are also proposed to be related to the attractor/repeller spheres. We believe there is a new physics below the current Standard Model for Particle Physics. Starting at the symbolic Planck units where one plancksphere per unit of Planck Time-and-Planck Length fill the universe, connecting everything, everywhere for all time. This grid or matrix extends right to the current expansion, and defines the Standard Model for Cosmology. It will require a new kind measurement mindset to demonstrate what is happening at each notation through mathematics (equations and geometries) and logic.
We would like to see each of these groups “…irrefutably confirm physics beyond the standard model…” and it would be fine if the G-2 Collection were the first to do it.
Postscript: In 2019 I enjoyed discovering the work of post-docs, Andrea Di Biagio (La Sapienza), Marios Christodoulou (Oxford), Pierre Martin-Dussaud (Aix-Marseille Univ., Université de Toulon). They are trying to formulate an experimental environment to determine time sequences as short as the PlanckSecond. One of their goals is to determine if time is discrete-and-digital or continuous-and-qualitative.
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