Ionization energies (observed) for the 2nd row of the periodic table starting with Helium and ending with Neon follows the following pattern (energy in kJ/mol with 1 Hartree = 2625 kJ/mol):
RealQM gives the following energies (with shell configuration given and list values corresponding to the above graph):
- He 2 (code) = -2.90 (list -2.903)
- He+ 1 (code) = -2.00 (list -2.00)
- Li 2+1 (code) = -7.47 (list -7.48)
- Li+ 2 (code) = -7.17 (list -7.28)
- Be 2+2 (code) = -14.6 (list -14.5)
- Be+ 2+1 (code) = -14.0 (list -14.2)
- B 2+2+1 (code) = -24.4 (list -24.5)
- B+ 2+2 (code) = -24.2 (list -24.2)
- C 2+4 (code) = -37.7 (list -37.7)
- C 2+2+2 (code) = -37.8 (list -37.7)
- C+ 2+2+1 (code) = -37.3 (list -37.3)
- O 2+4+2 (code) = -74.9 (list -74.8)
- O+ 2+4+1 (code) = -74.4 (list -74.3)
- N 2+2+3 (code) = -54.4 (list -54.4)
- N+ 2+4 (code) = -53.7 (list -53.9)
- F 2+4+3 (code) = -99.6 (list -99.4)
- F+ 2+4+2 (code) = -98.8 (list -98.7)
- Ne 2+4+4 (code) = -128.6 (list -128.5)
- Ne+ 2+4+3 (code) = -127.5 (list -127.7)
- Na 2+4+4+1 (code) = -162 (list -162)
Fairly good agreement on 50^3 mesh with list values in the graph capturing the big ionization energies for He and Ne and steady increase from Li with kernel charge/pull, modulo the kinks Be-B and N-O. In RealQM terms the decrease Be-B can be connected to the 1 electron valence of B compared to 2 for Be, and the 2 electron valence of O compared to the 3 electron valence of N. Continue on next row starting with Na on 100^3 mesh…
Amazing. I hope to see Na &co soon.
SvaraRadera