In reply to Jones Beene's message of Sun, 24 Feb 2019 21:07:30 +0000 (UTC): Hi, [snip] > Harry, >If one seeks to engineer maximum packing of nucleons which have rudimentary >information transfer, then it would seem that there could be four distinct >size categories of interest which can have net integral spin and follow the >statistical description given by Bose and Einstein (statistics which do not >restrict the number of particles of that occupy the same quantum state). These >could also have paths of information transfer. > >These groups would be 1) nuclear 2) atomic 3) molecular and 4) quantum dot or >nano-droplet ... but in the case of UDD even the quantum dot is going to >smaller than atomic. > >If we should require an added input of energy, then perhaps an active target >forms at the geometry of the Casimir force maximum. That would be 2 nm but >that would represent thousands maybe millions of atoms of UDD.
Why would the Casimir force have a maximum, and why would it be 2 nm? Regards, Robin van Spaandonk local asymmetry = temporary success
