TO: Dario Alfè, Ph.D., condensed matter physicist, University College London, England, UK
FM: Bruce E. Camber
RE: I have been studying your homepage(s): ArXiv (+30), ESF, Google Scholar, IEEE, LCNanotechnology, Simons, UCL, especially the article you co-authored about the earth’s core conditions: Pozzo, Monica; Davies, Chris; Gubbins, David; Alfè, Dario (11 April 2012). “Thermal and electrical conductivity of iron at Earth’s core conditions”. Nature. 485 (7398): 355-358, arXiv (+30):1203.4970, Bibcode: 2012Natur.485..355P. doi:10.1038/nature11031. PMID 22495307. S2CID 4389191
First email: 7 December 2024 (update*)
Dear Prof. Dr. Dario Alfè:
We find our experts and scholars in the most circuitous ways these days. I am looking for a condensed matter physicist to ask an occasional question. I’ve lost touch with Jirina Rikovska Stone.
I’ll keep my questions short: (1) “Could the many forms of dark matter simply be too small to measure except for their effects?“ (2) From light dark matter (Wikipedia) to dark matter [link goes to https://81018.com/dark/#64] might dark matter-and-energy be within the core of galaxies, stars, planets, moons and other orbiting things?
There are 202 base-2 notations from the Planck scale, particularly Planck Time to the age of the universe. The first 64 notations are too small to measure. Yet, simple math, logic, and courage may be enough to give us our answer. We’ve been working on this model off-and-on since 2011. Recently, we discovered a definitive bridge between the finite-and-infinite — https://81018.com – defined by pi’s never-ending numbers*. It changes everything. It gives us a profound platform based on continuity-symmetry-harmony. See https://81018.com/csh/
When the issue of dark matter came up, it was natural for us to look within the first 64 notations.
I think it is well-worth exploring further. Do you? Thank you.
Most sincerely,
Bruce
PS. I have started to collect references to your work here: https://81018.com/alfe/ -BEC