TITLE:
Atomic epn(ep) Spin Models and Spectral Lines
AUTHORS:
Daekyoum Kim, Baik-Hyon Ha
KEYWORDS:
Atomic Model, Atomic Cluster, Spectral Lines, Resonance
JOURNAL NAME:
American Journal of Analytical Chemistry,
Vol.6 No.13,
December
18,
2015
ABSTRACT: We confirmed that
how many kinds of epn spins the atoms have by calculating heat capacity of
metals according to energy levels in the previous reference. To know more the
spin models of epn of hydrogen and helium are imagined and their line spectra
are counted. And the explanation of interference is discussed. Gas atoms make
line spectra by optical interference. Solid atoms make them by exciting the lowest
epns of their cluster first. They all make s, p energy orbit. One axis is composed
of two epns. 1s or 2s of atoms except for lithium generally
makes the symmetric axis. When each energy level is filled up by epns, these
are symmetrically paired first. The atoms which fit the number of line spectra
correctly by optical interference are hydrogen and helium. By counting the
number of alignments of epns spins within the cluster, the atoms which fit the
number of line spectra correctly are lithium, beryllium and phosphorus. The
number of line spectra of the rest atoms which we have counted approaches the
experimented numbers approximately, not correctly.