Table 7. Three-dimensional wavefunctions according to MSG G 12 (m,n,l=0,1,2,..).
| A 1’ | E a’ |
|---|---|
| cos(3mθ
1) cos(2nθ
2) α
2l
cos(3mθ 1) sin (2n+1)θ 2 α 2l+1 |
cos(3m±1)θ
1 cos(2nθ
2) α
2l
cos(3m±1)θ 1 sin (2n+1)θ 2 α 2l+1 |
| sin(3mθ
1) sin(2nθ
2) α
2l
sin(3mθ 1) cos(2n+1)θ 2 α 2l+1 |
cos(3m±1)θ
1 sin(2nθ
2) α
2l
cos(3m±1)θ 1 cos(2n+1)θ 2 α 2l+1 |
| A 2’ | E b’ |
| cos(3mθ
1) sin(2nθ
2) α
2l
cos(3mθ 1) cos(2n+1)θ 2 α 2l+1 |
sin(3m±1)θ
1 sin(2nθ
2) α
2l
sin(3m±1)θ 1 cos(2n+1)θ 2 α 2l+1 |
| sin(3mθ
1) cos(2nθ
2) α
2l
sin (3mθ 1) sin(2n+1)θ 2 α 2l+1 |
sin(3m±1)θ
1 cos(2nθ
2) α
2l
sin (3m±1)θ 1 sin(2n+1)θ 2 α 2l+1 |
| A 1” | E a” |
| cos(3mθ
1) sin(2nθ
2) α
2l+1
cos(3mθ 1) cos(2n+1)θ 2 α 2l |
cos(3m±1)θ
1 sin(2nθ
2) α
2l+1
cos(3m±1)θ 1 cos(2n+1)θ 2 α 2l |
| sin(3mθ
1) cos(2nθ
2) α
2l+1
sin(3mθ 1) sin(2n+1)θ 2 α 2l |
cos(3m±1)θ
1 cos(2nθ
2) α
2l+1
cos(3m±1)θ 1 sin(2n+1)θ 2 α 2l |
| A 2” | E b” |
| cos(3mθ
1) cos(2nθ
2) α
2l+1
cos(3mθ 1) sin(2n+1)θ 2 α 2l |
sin(3m±1)θ
1 cos(2nθ
2) α
2l+1
sin(3m±1)θ 1 sin(2n+1)θ 2 α 2l |
| sin(3mθ
1) sin(2nθ
2) α
2l+1
sin(3mθ 1) cos(2n+1)θ 2 α 2l |
sin(3m±1)θ
1 sin(2nθ
2) α
2l+1
sin(3m±1)θ 1 cos(2n+1)θ 2 α 2l |