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John Owen Roberts, Mater Sci Nanotechnol 2018, Volume 2

A QUANTUM CONNECTION IN THE

PERIODIC AND ROBERTS-JANET TABLES

John Owen Roberts

Open University, UK

T

he time independent quantum states in the Periodic Table are inverted

to accommodate spatial variation relative to the nucleus. From groups

U (1) x SU (2) x SU (3) including the Pauli principle the mathematics of

quantum physics from the standard model produces two sets of time

independent quantum states in the gauge potential n(n+1) and n(n-1) where

n is the principal quantum number. Oscillations between these states result

in a one-to-one mapping between this quantum mechanical table and the

Roberts-Janet nuclear periodic table by interpretation of positive n values

for condensed matter and negative n values for plasma prior to fusion. A

model of string theory at the nuclear end of the table is discussed merging

into quantum loop gravity at the condensed matter end of the table. Having

discussed a possible route back to the big bang, the structure of both the

Periodic and Roberts-Janet Tables is analysed including repeating patterns

of 8,18,32 and the energy orbitals of the transition and lanthanide/actinide

elements.

John Owen Roberts is graduated in 1969 with a BSc

(Hons) Physics from the University of Liverpool. He

has been an Open University Tutor for 30 years and a

private tutor of Maths and Science.

johnroberts048@gmail.com

BIOGRAPHY