Octahedral Refractive Quark Shell Theory of Nuclear Structure
Aran David Stubbs
Illustrations Page D
Note: color scheme done for asthetics. Red monoquark and blue/green diquark happened to look better than green monoquark and red/blue diquark, or blue monoquark and red/green diquark. All 3 forms should be equally likely. Relative size of each not entirely certain, several possible size relations used here, from monoquark with 48% the diameter of the diquark, to 100%. Current theory suggests 90% is most likely. These were developed with 2 different sets of software. Those with a black background are older software than those with white background (which are done with google sketchups). The few oldest images (where the spheres are translucent) are marked as oldest. Best fit has least surface combined with low dipole. Worst fit is a single line of spheres. Many awful solutions included – particularly sheets one*m*n. These aren’t ever best for A>3.
Sphere focused images Complete Structures, Skew, Hybrid, Diagonal, & Misc.
Sphere focused images by Baryon count 0-20
Sphere focused images by Baryon count 21-50
Sphere focused images by Baryon count 51-100
Sphere focused images by Baryon count 101-150
Sphere focused images by Baryon count 151-200
Sphere focused images by Baryon count 201-250
Sphere focused images by Baryon count 251-300
Sphere focused images by Baryon count 301-400
Bond focused images
Icons
Graphs
Miscellaneous
Sphere focused images Baryon Count 21-50
sd is the count of surface downs. Fewer is better, generally. Element name is stablest less than
or equal to maximum surface charge. Often there is a link from the element tag to the corresponding sketchup.
| 21 |  Ne 5sd E-1-1L3+2t2-2v |
 Ne 6sd S111L2+2s |
 Ne 11sd E+5+6OL1 |
end | |||||
| 22 |  Ne 5sd E-1-1L3+2t2 |
 Ne 6sd E+0+1L2 |
 Ne 6sd D-2L2 |
 Ne 6sd S111L2+4s |
 Ne 6sd S000L2+4t2 |
||||
 |
 Ne 8sd FDC1L2 |
 Ne 5sd DS001L3 Iffy Dipole |
 Ne 5sd DS001L3 Iffy Dipole |
 Ca 24sd E+3+AoL1 |
end | ||||
| 23 |  Na 5sd S111xL2 |
 Na 5sd S111xL2 |
 Na 5sd D1L3 |
 Na 5sd D1L3 |
 Na 5sd D1L3 |
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|
 Na 6sd E-1-1QL3 |
 Na 6sd S001 |
 Na 7sd DSCSL2 |
 Na 7sd DSCSL2 |
end | ||||
| 24 |  Mg 5sd S001L2 |
 Mg 5sd S001L2 |
 Mg 5sd S001L2 |
 Mg 5sd S001L2 |
 Mg 5sd D1 |
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|
 Mg 6sd E+0-1L3-4v |
 Mg 6sd DT2L2 |
 Mg 6sd DT2L2 |
 Mg 12sd E+5+7OL1 |
end | ||||
| 25 |  Mg 5sd S001xL2 |
 Mg 5sd S001xL2 |
 Mg 6sd FDC1xL2 |
 Mg 6sd FDC1xL2 |
 Mg 13sd E+4+9OL1 |
end | |||
| 26 |  Mg 6sd E+0-1L3-2v |
 Mg 6sd S111xL2+2t2 |
 Mg 7sd S001L2+4s |
 Mg 7sd S013xL2 |
 Mg 6sd DSCSxL2 Iffy Dipole |
 Mg 6sd DSCSxL2 Iffy Dipole |
end | ||
| 27 |  Al 6sd best S001L2+8s |
 Al 6sd E+2+3OxL2 |
 Al 14sd E+5+8OL1 |
end | |||||
| 28 |  Si 4sd best E+0-1L3 |
 Si 4sd best E+0-1L3 |
 Si 4sd best E+0-1L3 |
 Si 6sd E+0+2L2 |
 Si 6sd S022L2 |
 Si 14sd E+6+7OL1 |
end | ||
| 29 |  Si 6sd S111L2+2t3 |
 Si 7sd S111L2+4t2 |
 Si 7sd S112L2+2s |
end | |||||
| 30 |  Si 6sd E+0-1L3+4s |
 Si 7sd E+1+1L2 |
 Si 7sd S112L2+4s |
 Si 16sd E+5+9OL1 |
end | ||||
| 31 |  P 6sd E+1+1xL2 |
 P 6sd E+1+1xL2 |
 P 6sd E+0+3oL3-2s |
 P 6sd S112L2+6s |
|||||
|
 P 6sd S002 |
 P 6sd S002 |
 P E+0-1L3+2t2 5sd Bad Sym |
end | |||||
| 31.5 bad count |
 best ~K E+0+0OL4 |
 best ~K E+0+0OL4 |
 best ~K E+0+0OL4 |
end | |||||
| 32 |  S 5sd E+0+3OL3 Iffy Dipole |
 S 5sd S112xL2 Iffy Dipole |
 S 5sd S112xL2 Iffy Dipole |
 S 6sd E+0-1L3+8s Prettiest |
 S 6sd S002L2 |
 S 6sd S002L2 |
|||
|
 S 12sd E+0+0QL2 |
 S 16sd E+7+7OL1 |
end | ||||||
| 33 |  S 6sd S002L2+2s |
 S 6sd E+0+3o |
 S 5sd DE-1 Iffy Dipole |
 S 17sd E+5+AOL1 |
end | ||||
| 34 |  S 6sd S002xL2 |
 S 6sd S002xL2 |
 S 6sd E+0-1L3+2t3 |
 S 6sd E+0-1L3+2t3 |
|||||
|
 S 7sd E+1+1L2+2t2 |
 S 5sd DE-1 Iffy Dipole |
 S 5sd D-1 Iffy Dipole |
end | |||||
| 35 |  Cl 6sd S011L3 |
 Cl 6sd S011L3 |
 Cl 7sd DC2L3 |
 Cl 7sd DC2L3 |
 Cl 5sd DE-1 Iffy Dipole |
 Cl 18sd E+6+9OL1 |
end | ||
| 36 |  Ar 5sd S011L3+2s |
 Ar 6sd S000L3-2v |
 Ar 6sd E+0-1 |
 Ar 6sd E+0-1 |
 Ar E+7+8OL1 18sd |
end | |||
| 37 |  Cl 6sd S011xL3 |
 Cl 6sd S011xL3 |
 Cl 6sd E-1+1L3 |
end | |||||
| 38 |  Ar 6sd E-1+1L3+2s |
 Ar 6sd S000L3-4s |
 Ar 6sd T001 |
 Ar 6sd S011xL33+2s |
 Ar 7sd S011L3+2t2 |
end | |||
| 39 |  K 5sd S000 |
 K 6sd E-1-1-6vL4 |
 K 6sd S011L3+2t2+2s |
end | |||||
| 40 |  Ca 4sd T001 |
 Ca 4sd best S000L3 |
 Ca 4sd best S000L3 |
 Ca 4sd best S000L3 |
|||||
|
 Ca 4sd best S000L3 .667 |
 Ca 4sd best S000L3 .667 |
 Ca 4sd best S000L3 Oldest |
 Ca 4sd best S000L3 Oldest |
|||||
|
 K 6sd S011L3+2t2 |
 K 6sd S011L3+2t2 |
 K 6sd E-1-1L4-4v |
 Ca 14sd E+0+1QL2 |
 Ca 14sd E+0+1QL2 Oldest |
 Ca 20sd E+7+9OL1 |
end | ||
| 41 |  K 6sd E-1-1L4-4v |
 K 6sd S000L3+2s |
 K 7sd S113xL2 |
end | |||||
| 42 |  Ca 6sd T001 |
 Ca 6sd S000L3+4s |
 Ca 7sd S1E+2xL3 |
 Ar 7sd E-1-1L4-2v Iffy Dipole |
end | ||||
| 43 |  Ca 6sd DT1L3 |
 Ca 6sd DT1L3 |
 Ca 6sd DT1L3 |
 Ca 6sd DT1L3 |
 Ca 6sd S000L3+2t2 |
||||
|
 Ar 7sd E-1-1 |
 Ca 7sd S003xL2 |
 Ca 7sd S003xL2 |
 Ca 7sd S003xL2 |
end | ||||
| 44 |  Ca 7sd S122xL3 Iffy Dipole |
 Ca 7sd S000L3+2t2+2s |
 Ca 7sd DT1 |
 Ca 8sd E+0+0QxL1 |
 Ca 8sd T001 |
||||
|
 Ca 7sd S122xL3 Iffy Dipole |
 Ca 7sd S122xL3 Iffy Dipole |
 Best, Big Dipole Cl 8sd E-1-1L4 |
 Best, Big Dipole Cl 8sd E-1-1L4 |
 Ca 24sd E+7+AoL1 |
end | |||
| 45 |  Sc 6sd E-1-1L4+2t2-2v |
 Sc 6sd S000 |
 Sc 7sd DT1+4sL3 |
 Ar 8sd E-1-1L4+2s |
end | ||||
| 46 |  Ti 6sd T001 |
 Ti 6sd E-1+2L3 |
 Ti 6sd S000L3+4trios |
 Ca7sd E-1-1L4+2t2-2v Iffy Dipole |
 Ca 7sd S000L3+2sextets Iffy Dipole |
end | |||
| 47 |  Ti 6sd S000L3+2t3+2s |
 Ti 6sd S000L3+2h2 |
 Ti 6sd E-1-1-2v+2t2+2sL4 |
 K 8sdE-1-1+2t2L4 Iffy Dipole |
end | ||||
| 48 |  Ti 6sd E-1-1L4+2t2+2s |
 Ti 6sd E-1-1L4+2t2+2s |
-2s.jpg) Ti 6sd E-1-1+(2t3-2s)-2s |
 Ti 6sd E-1-1+2t3-2V |
|||||
|
 Ti 7sd S000 |
 Ti 7sd S012+4sL3 |
 Ti 8sd E+0+1 |
 Ti 6sd S111 Iffy Dipole |
end | ||||
| 49 |  Ti 6sd E-1-1-2v+2t3L4 |
 Ti 6sd E-1-1-2v+2t3L4 |
 Ti 7sd S012xL3 |
 Ti 7sd S012xL3 |
 Ti 7sd S000 |
end | |||
| 50 |  Ti 6sd E-1-1L4+2sextets |
 Ti 6sd E-1-1L4+2sextets |
 Ti 6sd S001 |
 Ti 8sd S111L3 |
 Ti 8sd S111L3 |
 Ti 8sd E-1-1L4+4trios |
|||
|
 Ti 8sd E+0+1 |
 Ti 6sd DS001 Iffy Dipole |
end | ||||||