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This is a collection of matrices that are used in the calculation of Tanabe–Sugano diagrams , which are relevant to octahedral coordination complexes. Configuration interaction mixes all states sharing a term symbol, meaning there is one matrix per term symbol relevant to ligand field transitions. This is accomplished through electron–electron repulsion, calculated using the Laplace expansion of Coulombic potential. All matrices below are real and Hermitian and therefore symmetric; thus, only the upper triangle is listed. The
d
1
{\displaystyle d^{1}}
and
d
9
{\displaystyle d^{9}}
diagrams are trivial but are still included below.
Tanabe–Sugano diagrams generally do not show all ligand field states, instead highlighting states that are more likely to be observed. These diagrams are shown here plotted with C /B = 4.5.
d1 electron configuration
d2 electron configuration
d3 electron configuration
d4 electron configuration
d5 electron configuration
d6 electron configuration
d7 electron configuration
d8 electron configuration
d9 electron configuration
Matrices and Full Diagrams [ edit ]
The same matrices may be used for
d
n
{\displaystyle d^{n}}
and
d
10
−
n
{\displaystyle d^{10-n}}
ions.
These matrices are Hermitian (and in fact symmetric ), so only the upper triangle of entries are shown.
For octahedral
d
n
{\displaystyle d^{n}}
ions with
n
≤
5
{\displaystyle n\leq 5}
and for tetrahedral
d
n
{\displaystyle d^{n}}
ions with
n
>
5
{\displaystyle n>5}
, a positive value of
D
q
{\displaystyle Dq}
should be used.
For tetrahedral
d
n
{\displaystyle d^{n}}
ions with
n
>
5
{\displaystyle n>5}
and for octahedral
d
n
{\displaystyle d^{n}}
ions with
n
≤
5
{\displaystyle n\leq 5}
, a negative value of
D
q
{\displaystyle Dq}
should be used.
For octahedral ions with up to five d electrons, the matrix is described by the electron configurations shown in the leftmost column; otherwise, the matrix is described be the electron configurations shown in the topmost row.
Any contributions from the Racah
A
{\displaystyle A}
parameter have been subtracted, but can be reintroduced by adding
[
n
(
n
−
1
)
/
2
]
A
{\displaystyle [n(n-1)/2]A}
to all diagonal entries.
Energy Matrix for
2
T
2
(
2
D
)
{\displaystyle {^{2}T_{2}}({^{2}D})}
States
t
2
5
e
4
{\displaystyle {t_{2}}^{5}e^{4}}
t
2
{\displaystyle t_{2}}
−
4
D
q
{\displaystyle -4Dq}
Energy Matrix for
2
E
(
2
D
)
{\displaystyle {^{2}E}({^{2}D})}
States
t
2
6
e
3
{\displaystyle {t_{2}}^{6}e^{3}}
e
{\displaystyle e}
6
D
q
{\displaystyle 6Dq}
Energy Matrix for
1
A
1
(
1
S
,
1
G
)
{\displaystyle {^{1}A_{1}}({^{1}S},{^{1}G})}
States
t
2
4
e
4
{\displaystyle {t_{2}}^{4}e^{4}}
t
2
6
e
2
{\displaystyle {t_{2}}^{6}e^{2}}
t
2
2
{\displaystyle {t_{2}}^{2}}
−
8
D
q
+
10
B
+
5
C
{\displaystyle -8Dq+10B+5C}
6
(
2
B
+
C
)
{\displaystyle {\sqrt {6}}(2B+C)}
e
2
{\displaystyle e^{2}}
12
D
q
+
8
B
+
4
C
{\displaystyle 12Dq+8B+4C}
Energy Matrix for
1
E
(
1
D
,
1
G
)
{\displaystyle {^{1}E}({^{1}D},{^{1}G})}
States
t
2
4
e
4
{\displaystyle {t_{2}}^{4}e^{4}}
t
2
6
e
2
{\displaystyle {t_{2}}^{6}e^{2}}
t
2
2
{\displaystyle {t_{2}}^{2}}
−
8
D
q
+
B
+
2
C
{\displaystyle -8Dq+B+2C}
−
2
3
B
{\displaystyle -2{\sqrt {3}}B}
e
2
{\displaystyle e^{2}}
12
D
q
+
2
C
{\displaystyle 12Dq+2C}
Energy Matrix for
1
T
2
(
1
D
,
1
G
)
{\displaystyle {^{1}T_{2}}({^{1}D},{^{1}G})}
States
t
2
4
e
4
{\displaystyle {t_{2}}^{4}e^{4}}
t
2
5
e
3
{\displaystyle {t_{2}}^{5}e^{3}}
t
2
2
{\displaystyle {t_{2}}^{2}}
−
8
D
q
+
B
+
2
C
{\displaystyle -8Dq+B+2C}
2
3
B
{\displaystyle 2{\sqrt {3}}B}
t
2
e
{\displaystyle {t_{2}}e}
2
D
q
+
2
C
{\displaystyle 2Dq+2C}
Energy Matrix for
3
T
1
(
3
P
,
3
F
)
{\displaystyle {^{3}T_{1}}({^{3}P},{^{3}F})}
States
t
2
4
e
4
{\displaystyle {t_{2}}^{4}e^{4}}
t
2
5
e
3
{\displaystyle {t_{2}}^{5}e^{3}}
t
2
2
{\displaystyle {t_{2}}^{2}}
−
8
D
q
−
5
B
{\displaystyle -8Dq-5B}
6
B
{\displaystyle 6B}
t
2
e
{\displaystyle t_{2}e}
2
D
q
+
4
B
{\displaystyle 2Dq+4B}
Energy Matrix for
1
T
1
(
1
G
)
{\displaystyle {^{1}T_{1}}({^{1}G})}
States
t
2
5
e
3
{\displaystyle {t_{2}}^{5}e^{3}}
t
2
e
{\displaystyle {t_{2}}e}
2
D
q
+
4
B
+
2
C
{\displaystyle 2Dq+4B+2C}
Energy Matrix for
3
A
2
(
3
F
)
{\displaystyle {^{3}A_{2}}({^{3}F})}
States
t
2
6
e
2
{\displaystyle {t_{2}}^{6}e^{2}}
e
2
{\displaystyle e^{2}}
12
D
q
−
8
B
{\displaystyle 12Dq-8B}
Energy Matrix for
3
T
2
(
3
F
)
{\displaystyle {^{3}T_{2}}({^{3}F})}
States
t
2
5
e
3
{\displaystyle {t_{2}}^{5}e^{3}}
t
2
e
{\displaystyle {t_{2}}e}
2
D
q
−
8
B
{\displaystyle 2Dq-8B}
Energy Matrix for
2
T
2
(
a
2
D
,
b
2
D
,
2
F
,
2
G
,
2
H
)
{\displaystyle {^{2}T_{2}}(a{^{2}D},b{^{2}D},{^{2}F},{^{2}G},{^{2}H})}
States
t
2
3
(
2
T
2
)
e
4
{\displaystyle {t_{2}}^{3}({^{2}T_{2}})e^{4}}
t
2
4
(
3
T
1
)
e
3
{\displaystyle {t_{2}}^{4}({^{3}T_{1}})e^{3}}
t
2
4
(
1
T
2
)
e
3
{\displaystyle {t_{2}}^{4}({^{1}T_{2}})e^{3}}
t
2
5
e
2
(
1
A
1
)
{\displaystyle {t_{2}}^{5}e^{2}({^{1}A_{1}})}
t
2
5
e
2
(
1
E
)
{\displaystyle {t_{2}}^{5}e^{2}({^{1}E})}
t
2
3
{\displaystyle {t_{2}}^{3}}
−
12
D
q
+
5
C
{\displaystyle -12Dq+5C}
−
3
3
B
{\displaystyle -3{\sqrt {3}}B}
−
5
3
B
{\displaystyle -5{\sqrt {3}}B}
4
B
+
2
C
{\displaystyle 4B+2C}
2
B
{\displaystyle 2B}
t
2
2
(
3
T
1
)
e
{\displaystyle {t_{2}}^{2}({^{3}T_{1}})e}
−
2
D
q
−
6
B
+
3
C
{\displaystyle -2Dq-6B+3C}
3
B
{\displaystyle 3B}
−
3
3
B
{\displaystyle -3{\sqrt {3}}B}
−
3
3
B
{\displaystyle -3{\sqrt {3}}B}
t
2
2
(
1
T
2
)
e
{\displaystyle {t_{2}}^{2}({^{1}T_{2}})e}
−
2
D
q
+
4
B
+
3
C
{\displaystyle -2Dq+4B+3C}
−
3
B
{\displaystyle -{\sqrt {3}}B}
3
B
{\displaystyle {\sqrt {3}}B}
t
2
e
2
(
1
A
1
)
{\displaystyle {t_{2}}e^{2}({^{1}A_{1}})}
8
D
q
+
6
B
+
5
C
{\displaystyle 8Dq+6B+5C}
3
B
{\displaystyle {\sqrt {3}}B}
t
2
e
2
(
1
E
)
{\displaystyle {t_{2}}e^{2}({^{1}E})}
8
D
q
−
2
B
+
3
C
{\displaystyle 8Dq-2B+3C}
Energy Matrix for
2
T
1
(
2
P
,
2
F
,
2
G
,
2
H
)
{\displaystyle {^{2}T_{1}}({^{2}P},{^{2}F},{^{2}G},{^{2}H})}
States
t
2
3
(
2
T
1
)
e
4
{\displaystyle {t_{2}}^{3}({^{2}T_{1}})e^{4}}
t
2
4
(
3
T
1
)
e
3
{\displaystyle {t_{2}}^{4}({^{3}T_{1}})e^{3}}
t
2
4
(
1
T
2
)
e
3
{\displaystyle {t_{2}}^{4}({^{1}T_{2}})e^{3}}
t
2
5
e
2
(
3
A
2
)
{\displaystyle {t_{2}}^{5}e^{2}({^{3}A_{2}})}
t
2
5
e
2
(
1
E
)
{\displaystyle {t_{2}}^{5}e^{2}({^{1}E})}
t
2
3
{\displaystyle {t_{2}}^{3}}
−
12
D
q
−
6
B
+
3
C
{\displaystyle -12Dq-6B+3C}
−
3
B
{\displaystyle -3B}
3
B
{\displaystyle 3B}
0
{\displaystyle 0}
−
2
3
B
{\displaystyle -2{\sqrt {3}}B}
t
2
2
(
3
T
1
)
e
{\displaystyle {t_{2}}^{2}({^{3}T_{1}})e}
−
2
D
q
+
3
C
{\displaystyle -2Dq+3C}
−
3
B
{\displaystyle -3B}
3
B
{\displaystyle 3B}
3
3
B
{\displaystyle 3{\sqrt {3}}B}
t
2
2
(
1
T
2
)
e
{\displaystyle {t_{2}}^{2}({^{1}T_{2}})e}
−
2
D
q
−
6
B
+
3
C
{\displaystyle -2Dq-6B+3C}
−
3
B
{\displaystyle -3B}
−
3
B
{\displaystyle -{\sqrt {3}}B}
t
2
e
2
(
3
A
2
)
{\displaystyle {t_{2}}e^{2}({^{3}A_{2}})}
8
D
q
−
6
B
+
3
C
{\displaystyle 8Dq-6B+3C}
2
3
B
{\displaystyle 2{\sqrt {3}}B}
t
2
e
2
(
1
E
)
{\displaystyle {t_{2}}e^{2}({^{1}E})}
8
D
q
−
2
B
+
3
C
{\displaystyle 8Dq-2B+3C}
Energy Matrix for
2
E
(
a
2
D
,
b
2
D
,
2
G
,
2
H
)
{\displaystyle {^{2}E}(a{^{2}D},b{^{2}D},{^{2}G},{^{2}H})}
States
t
2
3
(
2
E
)
e
4
{\displaystyle {t_{2}}^{3}({^{2}E})e^{4}}
t
2
4
(
1
A
1
)
e
3
{\displaystyle {t_{2}}^{4}({^{1}A_{1}})e^{3}}
t
2
4
(
1
E
)
e
3
{\displaystyle {t_{2}}^{4}({^{1}E})e^{3}}
t
2
6
e
{\displaystyle {t_{2}}^{6}e}
t
2
3
{\displaystyle {t_{2}}^{3}}
−
12
D
q
−
6
B
+
3
C
{\displaystyle -12Dq-6B+3C}
−
6
2
B
{\displaystyle -6{\sqrt {2}}B}
−
3
2
B
{\displaystyle -3{\sqrt {2}}B}
0
{\displaystyle 0}
t
2
2
(
1
A
1
)
e
{\displaystyle {t_{2}}^{2}({^{1}A_{1}})e}
−
2
D
q
+
8
B
+
6
C
{\displaystyle -2Dq+8B+6C}
10
B
{\displaystyle 10B}
3
(
2
B
+
C
)
{\displaystyle {\sqrt {3}}(2B+C)}
t
2
2
(
1
E
)
e
{\displaystyle {t_{2}}^{2}({^{1}E})e}
−
2
D
q
−
B
+
3
C
{\displaystyle -2Dq-B+3C}
2
3
B
{\displaystyle 2{\sqrt {3}}B}
e
3
{\displaystyle e^{3}}
18
D
q
−
8
B
+
4
C
{\displaystyle 18Dq-8B+4C}
Energy Matrix for
4
T
1
(
4
P
,
4
F
)
{\displaystyle {^{4}T_{1}}({^{4}P},{^{4}F})}
States
t
2
4
(
3
T
1
)
e
3
{\displaystyle {t_{2}}^{4}({^{3}T_{1}})e^{3}}
t
2
5
e
2
(
3
A
2
)
{\displaystyle {t_{2}}^{5}e^{2}({^{3}A_{2}})}
t
2
2
(
3
T
1
)
e
{\displaystyle {t_{2}}^{2}({^{3}T_{1}})e}
−
2
D
q
−
3
B
{\displaystyle -2Dq-3B}
6
B
{\displaystyle 6B}
t
2
e
2
(
3
A
2
)
{\displaystyle {t_{2}}e^{2}({^{3}A_{2}})}
8
D
q
−
12
B
{\displaystyle 8Dq-12B}
Energy Matrix for
4
A
2
(
4
F
)
{\displaystyle {^{4}A_{2}}({^{4}F})}
States
t
2
3
(
4
A
2
)
e
4
{\displaystyle {t_{2}}^{3}({^{4}A_{2}})e^{4}}
t
2
3
{\displaystyle {t_{2}}^{3}}
−
12
D
q
−
15
B
{\displaystyle -12Dq-15B}
Energy Matrix for
4
T
2
(
4
F
)
{\displaystyle {^{4}T_{2}}({^{4}F})}
States
t
2
4
(
3
T
1
)
e
3
{\displaystyle {t_{2}}^{4}({^{3}T_{1}})e^{3}}
t
2
2
(
3
T
1
)
e
{\displaystyle {t_{2}}^{2}({^{3}T_{1}})e}
−
2
D
q
−
15
B
{\displaystyle -2Dq-15B}
Energy Matrix for
2
A
1
(
2
G
)
{\displaystyle {^{2}A_{1}}({^{2}G})}
States
t
2
4
(
1
E
)
e
3
{\displaystyle {t_{2}}^{4}({^{1}E})e^{3}}
t
2
2
(
1
E
)
e
{\displaystyle {t_{2}}^{2}({^{1}E})e}
−
2
D
q
−
11
B
+
3
C
{\displaystyle -2Dq-11B+3C}
Energy Matrix for
2
A
2
(
2
F
)
{\displaystyle {^{2}A_{2}}({^{2}F})}
States
t
2
4
(
1
E
)
e
3
{\displaystyle {t_{2}}^{4}({^{1}E})e^{3}}
t
2
2
(
1
E
)
e
{\displaystyle {t_{2}}^{2}({^{1}E})e}
−
2
D
q
+
9
B
+
3
C
{\displaystyle -2Dq+9B+3C}
Energy Matrix for
3
T
1
(
a
3
P
,
b
3
P
,
a
3
F
,
b
3
F
,
3
G
,
3
H
)
{\displaystyle {^{3}T_{1}}(a{^{3}P},b{^{3}P},a{^{3}F},b{^{3}F},{^{3}G},{^{3}H})}
States
t
2
2
(
3
T
1
)
e
4
{\displaystyle {t_{2}}^{2}({^{3}T_{1}})e^{4}}
t
2
3
(
2
T
1
)
e
3
{\displaystyle {t_{2}}^{3}({^{2}T_{1}})e^{3}}
t
2
3
(
2
T
2
)
e
3
{\displaystyle {t_{2}}^{3}({^{2}T_{2}})e^{3}}
t
2
4
(
3
T
1
)
e
2
(
1
A
1
)
{\displaystyle {t_{2}}^{4}({^{3}T_{1}})e^{2}({^{1}A_{1}})}
t
2
4
(
3
T
1
)
e
2
(
1
E
)
{\displaystyle {t_{2}}^{4}({^{3}T_{1}})e^{2}({^{1}E})}
t
2
4
(
1
T
2
)
e
2
(
3
A
2
)
{\displaystyle {t_{2}}^{4}({^{1}T_{2}})e^{2}({^{3}A_{2}})}
t
2
5
e
{\displaystyle {t_{2}}^{5}e}
t
2
4
{\displaystyle {t_{2}}^{4}}
−
16
D
q
−
15
B
+
5
C
{\displaystyle -16Dq-15B+5C}
−
6
B
{\displaystyle -{\sqrt {6}}B}
−
3
2
B
{\displaystyle -3{\sqrt {2}}B}
2
(
2
B
+
C
)
{\displaystyle {\sqrt {2}}(2B+C)}
−
2
2
B
{\displaystyle -2{\sqrt {2}}B}
0
{\displaystyle 0}
0
{\displaystyle 0}
t
2
3
(
2
T
1
)
e
{\displaystyle {t_{2}}^{3}({^{2}T_{1}})e}
−
6
D
q
−
11
B
+
4
C
{\displaystyle -6Dq-11B+4C}
5
3
B
{\displaystyle 5{\sqrt {3}}B}
3
B
{\displaystyle {\sqrt {3}}B}
−
3
B
{\displaystyle -{\sqrt {3}}B}
3
B
{\displaystyle 3B}
6
B
{\displaystyle {\sqrt {6}}B}
t
2
3
(
2
T
2
)
e
{\displaystyle {t_{2}}^{3}({^{2}T_{2}})e}
−
6
D
q
−
3
B
+
6
C
{\displaystyle -6Dq-3B+6C}
−
3
B
{\displaystyle -3B}
−
3
B
{\displaystyle -3B}
5
3
B
{\displaystyle 5{\sqrt {3}}B}
2
(
B
+
C
)
{\displaystyle {\sqrt {2}}(B+C)}
t
2
2
(
3
T
1
)
e
2
(
1
A
1
)
{\displaystyle {t_{2}}^{2}({^{3}T_{1}})e^{2}({^{1}A_{1}})}
4
D
q
−
B
+
6
C
{\displaystyle 4Dq-B+6C}
−
10
B
{\displaystyle -10B}
0
{\displaystyle 0}
3
2
B
{\displaystyle 3{\sqrt {2}}B}
t
2
2
(
3
T
1
)
e
2
(
1
E
)
{\displaystyle {t_{2}}^{2}({^{3}T_{1}})e^{2}({^{1}E})}
4
D
q
−
9
B
+
4
C
{\displaystyle 4Dq-9B+4C}
−
2
3
B
{\displaystyle -2{\sqrt {3}}B}
−
3
2
B
{\displaystyle -3{\sqrt {2}}B}
t
2
2
(
1
T
2
)
e
2
(
3
A
2
)
{\displaystyle {t_{2}}^{2}({^{1}T_{2}})e^{2}({^{3}A_{2}})}
4
D
q
−
11
B
+
4
C
{\displaystyle 4Dq-11B+4C}
6
B
{\displaystyle {\sqrt {6}}B}
t
2
e
3
{\displaystyle {t_{2}}e^{3}}
14
D
q
−
16
B
+
5
C
{\displaystyle 14Dq-16B+5C}
Energy Matrix for
1
T
2
(
a
1
D
,
b
1
D
,
a
1
G
,
b
1
G
,
1
F
,
1
I
)
{\displaystyle {^{1}T_{2}}(a{^{1}D},b{^{1}D},a{^{1}G},b{^{1}G},{^{1}F},{^{1}I})}
States
t
2
2
(
1
T
2
)
e
4
{\displaystyle {t_{2}}^{2}({^{1}T_{2}})e^{4}}
t
2
3
(
2
T
1
)
e
3
{\displaystyle {t_{2}}^{3}({^{2}T_{1}})e^{3}}
t
2
3
(
2
T
2
)
e
3
{\displaystyle {t_{2}}^{3}({^{2}T_{2}})e^{3}}
t
2
4
(
3
T
1
)
e
2
(
3
A
2
)
{\displaystyle {t_{2}}^{4}({^{3}T_{1}})e^{2}({^{3}A_{2}})}
t
2
4
(
1
T
2
)
e
2
(
1
E
)
{\displaystyle {t_{2}}^{4}({^{1}T_{2}})e^{2}({^{1}E})}
t
2
4
(
1
T
2
)
e
2
(
1
A
1
)
{\displaystyle {t_{2}}^{4}({^{1}T_{2}})e^{2}({^{1}A_{1}})}
t
2
5
e
{\displaystyle {t_{2}}^{5}e}
t
2
4
{\displaystyle {t_{2}}^{4}}
−
16
D
q
−
9
B
+
7
C
{\displaystyle -16Dq-9B+7C}
3
2
B
{\displaystyle 3{\sqrt {2}}B}
−
5
6
B
{\displaystyle -5{\sqrt {6}}B}
0
{\displaystyle 0}
−
2
2
B
{\displaystyle -2{\sqrt {2}}B}
2
(
2
B
+
C
)
{\displaystyle {\sqrt {2}}(2B+C)}
0
{\displaystyle 0}
t
2
3
(
2
T
1
)
e
{\displaystyle {t_{2}}^{3}({^{2}T_{1}})e}
−
6
D
q
−
9
B
+
6
C
{\displaystyle -6Dq-9B+6C}
−
5
3
B
{\displaystyle -5{\sqrt {3}}B}
3
B
{\displaystyle 3B}
−
3
B
{\displaystyle -3B}
−
3
B
{\displaystyle -3B}
−
6
B
{\displaystyle -{\sqrt {6}}B}
t
2
3
(
2
T
2
)
e
{\displaystyle {t_{2}}^{3}({^{2}T_{2}})e}
−
6
D
q
+
3
B
+
8
C
{\displaystyle -6Dq+3B+8C}
−
3
3
B
{\displaystyle -3{\sqrt {3}}B}
5
3
B
{\displaystyle 5{\sqrt {3}}B}
−
5
3
B
{\displaystyle -5{\sqrt {3}}B}
2
(
3
B
+
C
)
{\displaystyle {\sqrt {2}}(3B+C)}
t
2
2
(
3
T
1
)
e
2
(
3
A
2
)
{\displaystyle {t_{2}}^{2}({^{3}T_{1}})e^{2}({^{3}A_{2}})}
4
D
q
−
9
B
+
6
C
{\displaystyle 4Dq-9B+6C}
−
6
B
{\displaystyle -6B}
0
{\displaystyle 0}
−
3
6
B
{\displaystyle -3{\sqrt {6}}B}
t
2
2
(
1
T
2
)
e
2
(
1
E
)
{\displaystyle {t_{2}}^{2}({^{1}T_{2}})e^{2}({^{1}E})}
4
D
q
−
3
B
+
6
C
{\displaystyle 4Dq-3B+6C}
−
10
B
{\displaystyle -10B}
6
B
{\displaystyle {\sqrt {6}}B}
t
2
2
(
1
T
2
)
e
2
(
1
A
1
)
{\displaystyle {t_{2}}^{2}({^{1}T_{2}})e^{2}({^{1}A_{1}})}
4
D
q
+
5
B
+
8
C
{\displaystyle 4Dq+5B+8C}
6
B
{\displaystyle {\sqrt {6}}B}
t
2
e
3
{\displaystyle {t_{2}}e^{3}}
14
D
q
+
7
C
{\displaystyle 14Dq+7C}
Energy Matrix for
1
A
1
(
a
1
S
,
b
1
S
,
a
1
G
,
b
1
G
,
1
I
)
{\displaystyle {^{1}A_{1}}(a{^{1}S},b{^{1}S},a{^{1}G},b{^{1}G},{^{1}I})}
States
t
2
2
(
1
A
1
)
e
4
{\displaystyle {t_{2}}^{2}({^{1}A_{1}})e^{4}}
t
2
3
(
2
E
)
e
3
{\displaystyle {t_{2}}^{3}({^{2}E})e^{3}}
t
2
4
(
1
A
1
)
e
2
(
1
A
1
)
{\displaystyle {t_{2}}^{4}({^{1}A_{1}})e^{2}({^{1}A_{1}})}
t
2
4
(
1
E
)
e
2
(
1
E
)
{\displaystyle {t_{2}}^{4}({^{1}E})e^{2}({^{1}E})}
t
2
6
{\displaystyle {t_{2}}^{6}}
t
2
4
{\displaystyle {t_{2}}^{4}}
−
16
D
q
+
10
C
{\displaystyle -16Dq+10C}
−
12
2
B
{\displaystyle -12{\sqrt {2}}B}
2
(
4
B
+
2
C
)
{\displaystyle {\sqrt {2}}(4B+2C)}
2
2
B
{\displaystyle 2{\sqrt {2}}B}
0
{\displaystyle 0}
t
2
3
(
2
T
1
)
e
{\displaystyle {t_{2}}^{3}({^{2}T_{1}})e}
−
6
D
q
+
6
C
{\displaystyle -6Dq+6C}
−
12
B
{\displaystyle -12B}
−
6
B
{\displaystyle -6B}
0
{\displaystyle 0}
t
2
3
(
2
T
2
)
e
{\displaystyle {t_{2}}^{3}({^{2}T_{2}})e}
4
D
q
+
14
B
+
11
C
{\displaystyle 4Dq+14B+11C}
20
B
{\displaystyle 20B}
6
(
2
B
+
C
)
{\displaystyle {\sqrt {6}}(2B+C)}
t
2
2
(
3
T
1
)
e
2
(
3
A
2
)
{\displaystyle {t_{2}}^{2}({^{3}T_{1}})e^{2}({^{3}A_{2}})}
4
D
q
−
3
B
+
6
C
{\displaystyle 4Dq-3B+6C}
2
6
B
{\displaystyle 2{\sqrt {6}}B}
t
2
2
(
1
T
2
)
e
2
(
1
E
)
{\displaystyle {t_{2}}^{2}({^{1}T_{2}})e^{2}({^{1}E})}
24
D
q
−
16
B
+
8
C
{\displaystyle 24Dq-16B+8C}
Energy Matrix for
1
E
(
a
1
D
,
b
1
D
,
a
1
G
,
b
1
G
,
1
I
)
{\displaystyle {^{1}E}(a{^{1}D},b{^{1}D},a{^{1}G},b{^{1}G},{^{1}I})}
States
t
2
2
(
1
E
)
e
4
{\displaystyle {t_{2}}^{2}({^{1}E})e^{4}}
t
2
3
(
2
E
)
e
3
{\displaystyle {t_{2}}^{3}({^{2}E})e^{3}}
t
2
4
(
1
E
)
e
2
(
1
A
1
)
{\displaystyle {t_{2}}^{4}({^{1}E})e^{2}({^{1}A_{1}})}
t
2
4
(
1
A
1
)
e
2
(
1
E
)
{\displaystyle {t_{2}}^{4}({^{1}A_{1}})e^{2}({^{1}E})}
t
2
4
(
1
E
)
e
2
(
1
E
)
{\displaystyle {t_{2}}^{4}({^{1}E})e^{2}({^{1}E})}
t
2
4
{\displaystyle {t_{2}}^{4}}
−
16
D
q
−
9
B
+
7
C
{\displaystyle -16Dq-9B+7C}
6
B
{\displaystyle 6B}
2
(
2
B
+
C
)
{\displaystyle {\sqrt {2}}(2B+C)}
−
2
B
{\displaystyle -2B}
−
4
B
{\displaystyle -4B}
t
2
3
(
2
T
1
)
e
{\displaystyle {t_{2}}^{3}({^{2}T_{1}})e}
−
6
D
q
−
6
B
+
6
C
{\displaystyle -6Dq-6B+6C}
−
3
2
B
{\displaystyle -3{\sqrt {2}}B}
−
12
B
{\displaystyle -12B}
0
{\displaystyle 0}
t
2
3
(
2
T
2
)
e
{\displaystyle {t_{2}}^{3}({^{2}T_{2}})e}
4
D
q
+
5
B
+
8
C
{\displaystyle 4Dq+5B+8C}
10
2
B
{\displaystyle 10{\sqrt {2}}B}
−
10
2
B
{\displaystyle -10{\sqrt {2}}B}
t
2
2
(
3
T
1
)
e
2
(
3
A
2
)
{\displaystyle {t_{2}}^{2}({^{3}T_{1}})e^{2}({^{3}A_{2}})}
4
D
q
+
6
B
+
9
C
{\displaystyle 4Dq+6B+9C}
0
{\displaystyle 0}
t
2
2
(
1
T
2
)
e
2
(
1
E
)
{\displaystyle {t_{2}}^{2}({^{1}T_{2}})e^{2}({^{1}E})}
4
D
q
−
3
B
+
6
C
{\displaystyle 4Dq-3B+6C}
Energy Matrix for
3
T
2
(
3
D
,
a
3
F
,
b
3
F
,
3
G
,
3
H
)
{\displaystyle {^{3}T_{2}}({^{3}D},a{^{3}F},b{^{3}F},{^{3}G},{^{3}H})}
States
t
2
3
(
2
T
1
)
e
4
{\displaystyle {t_{2}}^{3}({^{2}T_{1}})e^{4}}
t
2
3
(
2
T
2
)
e
3
{\displaystyle {t_{2}}^{3}({^{2}T_{2}})e^{3}}
t
2
4
(
3
T
1
)
e
2
(
3
A
2
)
{\displaystyle {t_{2}}^{4}({^{3}T_{1}})e^{2}({^{3}A_{2}})}
t
2
4
(
3
T
1
)
e
2
(
1
E
)
{\displaystyle {t_{2}}^{4}({^{3}T_{1}})e^{2}({^{1}E})}
t
2
5
e
{\displaystyle {t_{2}}^{5}e}
t
2
3
(
2
T
1
)
e
{\displaystyle {t_{2}}^{3}({^{2}T_{1}})e}
−
6
D
q
−
9
B
+
4
C
{\displaystyle -6Dq-9B+4C}
−
5
3
B
{\displaystyle -5{\sqrt {3}}B}
6
B
{\displaystyle {\sqrt {6}}B}
3
B
{\displaystyle {\sqrt {3}}B}
−
6
B
{\displaystyle -{\sqrt {6}}B}
t
2
3
(
2
T
2
)
e
{\displaystyle {t_{2}}^{3}({^{2}T_{2}})e}
−
6
D
q
−
5
B
+
6
C
{\displaystyle -6Dq-5B+6C}
−
3
2
B
{\displaystyle -3{\sqrt {2}}B}
3
B
{\displaystyle 3B}
2
(
3
B
+
C
)
{\displaystyle {\sqrt {2}}(3B+C)}
t
2
2
(
3
T
1
)
e
2
(
3
A
2
)
{\displaystyle {t_{2}}^{2}({^{3}T_{1}})e^{2}({^{3}A_{2}})}
4
D
q
−
13
B
+
4
C
{\displaystyle 4Dq-13B+4C}
−
2
2
B
{\displaystyle -2{\sqrt {2}}B}
−
6
B
{\displaystyle -6B}
t
2
2
(
3
T
1
)
e
2
(
1
E
)
{\displaystyle {t_{2}}^{2}({^{3}T_{1}})e^{2}({^{1}E})}
4
D
q
−
9
B
+
4
C
{\displaystyle 4Dq-9B+4C}
3
2
B
{\displaystyle 3{\sqrt {2}}B}
t
2
e
3
{\displaystyle {t_{2}}e^{3}}
14
D
q
−
8
B
+
5
C
{\displaystyle 14Dq-8B+5C}
Energy Matrix for
1
T
1
(
1
F
,
a
1
G
,
b
1
G
,
1
I
)
{\displaystyle {^{1}T_{1}}({^{1}F},a{^{1}G},b{^{1}G},{^{1}I})}
States
t
2
3
(
2
T
1
)
e
3
{\displaystyle {t_{2}}^{3}({^{2}T_{1}})e^{3}}
t
2
3
(
2
T
2
)
e
3
{\displaystyle {t_{2}}^{3}({^{2}T_{2}})e^{3}}
t
2
4
(
3
T
1
)
e
2
(
1
E
)
{\displaystyle {t_{2}}^{4}({^{3}T_{1}})e^{2}({^{1}E})}
t
2
5
e
{\displaystyle {t_{2}}^{5}e}
t
2
3
(
2
T
1
)
e
{\displaystyle {t_{2}}^{3}({^{2}T_{1}})e}
−
6
D
q
−
3
B
+
6
C
{\displaystyle -6Dq-3B+6C}
5
3
B
{\displaystyle 5{\sqrt {3}}B}
3
B
{\displaystyle 3B}
6
B
{\displaystyle {\sqrt {6}}B}
t
2
3
(
2
T
2
)
e
{\displaystyle {t_{2}}^{3}({^{2}T_{2}})e}
−
6
D
q
−
3
B
+
8
C
{\displaystyle -6Dq-3B+8C}
−
5
3
B
{\displaystyle -5{\sqrt {3}}B}
2
(
B
+
C
)
{\displaystyle {\sqrt {2}}(B+C)}
t
2
2
(
1
T
2
)
e
2
(
1
E
)
{\displaystyle {t_{2}}^{2}({^{1}T_{2}})e^{2}({^{1}E})}
4
D
q
−
3
B
+
6
C
{\displaystyle 4Dq-3B+6C}
−
6
B
{\displaystyle -{\sqrt {6}}B}
t
2
e
3
{\displaystyle {t_{2}}e^{3}}
14
D
q
−
16
B
+
7
C
{\displaystyle 14Dq-16B+7C}
Energy Matrix for
3
E
(
3
D
,
3
G
,
3
H
)
{\displaystyle {^{3}E}({^{3}D},{^{3}G},{^{3}H})}
States
t
2
3
(
4
A
2
)
e
3
{\displaystyle {t_{2}}^{3}({^{4}A_{2}})e^{3}}
t
2
3
(
2
E
)
e
3
{\displaystyle {t_{2}}^{3}({^{2}E})e^{3}}
t
2
4
(
1
E
)
e
2
(
3
A
2
)
{\displaystyle {t_{2}}^{4}({^{1}E})e^{2}({^{3}A_{2}})}
t
2
3
(
4
A
2
)
e
{\displaystyle {t_{2}}^{3}({^{4}A_{2}})e}
−
6
D
q
−
13
B
+
4
C
{\displaystyle -6Dq-13B+4C}
−
4
B
{\displaystyle -4B}
0
{\displaystyle 0}
t
2
3
(
2
E
)
e
{\displaystyle {t_{2}}^{3}({^{2}E})e}
−
6
D
q
−
10
B
+
4
C
{\displaystyle -6Dq-10B+4C}
−
3
2
B
{\displaystyle -3{\sqrt {2}}B}
t
2
2
(
1
E
)
e
2
(
3
A
2
)
{\displaystyle {t_{2}}^{2}({^{1}E})e^{2}({^{3}A_{2}})}
4
D
q
−
11
B
+
4
C
{\displaystyle 4Dq-11B+4C}
Energy Matrix for
3
A
2
(
a
3
F
,
b
3
F
)
{\displaystyle {^{3}A_{2}}(a{^{3}F},b{^{3}F})}
States
t
2
3
(
2
E
)
e
3
{\displaystyle {t_{2}}^{3}({^{2}E})e^{3}}
t
2
4
(
1
A
1
)
e
2
(
3
A
2
)
{\displaystyle {t_{2}}^{4}({^{1}A_{1}})e^{2}({3A_{2}})}
t
2
3
(
2
E
)
e
{\displaystyle {t_{2}}^{3}({^{2}E})e}
−
6
D
q
−
8
B
+
4
C
{\displaystyle -6Dq-8B+4C}
−
12
B
{\displaystyle -12B}
t
2
2
(
1
A
1
)
e
2
(
3
A
2
)
{\displaystyle {t_{2}}^{2}({^{1}A_{1}})e^{2}({^{3}A_{2}})}
4
D
q
−
2
B
+
7
C
{\displaystyle 4Dq-2B+7C}
Energy Matrix for
1
A
2
(
1
F
,
1
I
)
{\displaystyle {^{1}A_{2}}({^{1}F},{^{1}I})}
States
t
2
3
(
2
E
)
e
3
{\displaystyle {t_{2}}^{3}({^{2}E})e^{3}}
t
2
4
(
1
E
)
e
2
(
1
E
)
{\displaystyle {t_{2}}^{4}({^{1}E})e^{2}({1E})}
t
2
3
(
2
E
)
e
{\displaystyle {t_{2}}^{3}({^{2}E})e}
−
6
D
q
−
12
B
+
6
C
{\displaystyle -6Dq-12B+6C}
6
B
{\displaystyle 6B}
t
2
2
(
1
E
)
e
2
(
1
E
)
{\displaystyle {t_{2}}^{2}({^{1}E})e^{2}({^{1}E})}
4
D
q
−
3
B
+
6
C
{\displaystyle 4Dq-3B+6C}
Energy Matrix for
5
E
(
5
D
)
{\displaystyle {^{5}E}({^{5}D})}
States
t
2
3
(
4
A
2
)
e
3
{\displaystyle {t_{2}}^{3}({^{4}A_{2}})e^{3}}
t
2
3
(
4
A
2
)
e
{\displaystyle {t_{2}}^{3}({^{4}A_{2}})e}
−
6
D
q
−
21
B
{\displaystyle -6Dq-21B}
Energy Matrix for
5
T
2
(
5
D
)
{\displaystyle {^{5}T_{2}}({^{5}D})}
States
t
2
4
(
3
T
1
)
e
2
(
3
A
2
)
{\displaystyle {t_{2}}^{4}({^{3}T_{1}})e^{2}({^{3}A_{2}})}
t
2
2
(
3
T
1
)
e
2
(
3
A
2
)
{\displaystyle {t_{2}}^{2}({^{3}T_{1}})e^{2}({^{3}A_{2}})}
4
D
q
−
21
B
{\displaystyle 4Dq-21B}
Energy Matrix for
3
A
1
(
3
G
)
{\displaystyle {^{3}A_{1}}({^{3}G})}
States
t
2
3
(
2
E
)
e
3
{\displaystyle {t_{2}}^{3}({^{2}E})e^{3}}
t
2
3
(
2
E
)
e
{\displaystyle {t_{2}}^{3}({^{2}E})e}
−
6
D
q
−
12
B
+
4
C
{\displaystyle -6Dq-12B+4C}
Energy Matrix for
2
T
2
(
a
2
F
,
b
2
F
,
a
2
G
,
b
2
G
,
2
H
,
2
I
,
a
2
D
,
b
2
D
,
c
2
D
)
{\displaystyle {^{2}T_{2}}(a{^{2}F},b{^{2}F},a{^{2}G},b{^{2}G},{^{2}H},{^{2}I},a{^{2}D},b{^{2}D},c{^{2}D})}
States
t
2
5
{\displaystyle {t_{2}}^{5}}
t
2
4
(
3
T
1
)
e
{\displaystyle {t_{2}}^{4}({^{3}T_{1}})e}
t
2
4
(
1
T
2
)
e
{\displaystyle {t_{2}}^{4}({^{1}T_{2}})e}
t
2
3
(
2
T
1
)
e
2
(
3
A
2
)
{\displaystyle {t_{2}}^{3}({^{2}T_{1}})e^{2}({^{3}A_{2}})}
t
2
3
(
2
T
1
)
e
2
(
1
E
)
{\displaystyle {t_{2}}^{3}({^{2}T_{1}})e^{2}({^{1}E})}
t
2
3
(
2
T
2
)
e
2
(
1
A
1
)
{\displaystyle {t_{2}}^{3}({^{2}T_{2}})e^{2}({^{1}A_{1}})}
t
2
3
(
2
T
2
)
e
2
(
1
E
)
{\displaystyle {t_{2}}^{3}({^{2}T_{2}})e^{2}({^{1}E})}
t
2
2
(
1
T
2
)
e
3
(
2
E
)
{\displaystyle {t_{2}}^{2}({^{1}T_{2}})e^{3}({^{2}E})}
t
2
2
(
3
T
1
)
e
3
(
2
E
)
{\displaystyle {t_{2}}^{2}({^{3}T_{1}})e^{3}({^{2}E})}
t
2
e
4
{\displaystyle {t_{2}}e^{4}}
t
2
5
{\displaystyle {t_{2}}^{5}}
−
20
D
q
−
20
B
+
10
C
{\displaystyle -20Dq-20B+10C}
3
6
B
{\displaystyle 3{\sqrt {6}}B}
6
B
{\displaystyle {\sqrt {6}}B}
0
{\displaystyle 0}
−
2
3
B
{\displaystyle -2{\sqrt {3}}B}
4
B
+
2
C
{\displaystyle 4B+2C}
2
B
{\displaystyle 2B}
0
{\displaystyle 0}
0
{\displaystyle 0}
0
{\displaystyle 0}
t
2
4
(
3
T
1
)
e
{\displaystyle {t_{2}}^{4}({^{3}T_{1}})e}
−
10
D
q
−
8
B
+
9
C
{\displaystyle -10Dq-8B+9C}
3
B
{\displaystyle 3B}
6
/
2
B
{\displaystyle {\sqrt {6}}/2B}
−
3
2
/
2
B
{\displaystyle -3{\sqrt {2}}/2B}
3
6
/
2
B
{\displaystyle 3{\sqrt {6}}/2B}
3
6
/
2
B
{\displaystyle 3{\sqrt {6}}/2B}
0
{\displaystyle 0}
4
B
+
C
{\displaystyle 4B+C}
0
{\displaystyle 0}
t
2
4
(
1
T
2
)
e
{\displaystyle {t_{2}}^{4}({^{1}T_{2}})e}
−
10
D
q
−
18
B
+
9
C
{\displaystyle -10Dq-18B+9C}
3
6
/
2
B
{\displaystyle 3{\sqrt {6}}/2B}
−
3
2
/
2
B
{\displaystyle -3{\sqrt {2}}/2B}
5
6
/
2
B
{\displaystyle 5{\sqrt {6}}/2B}
−
5
6
/
2
B
{\displaystyle -5{\sqrt {6}}/2B}
C
{\displaystyle C}
0
{\displaystyle 0}
0
{\displaystyle 0}
t
2
3
(
2
T
1
)
e
2
(
3
A
2
)
{\displaystyle {t_{2}}^{3}({^{2}T_{1}})e^{2}({^{3}A_{2}})}
−
16
B
+
8
C
{\displaystyle -16B+8C}
2
3
B
{\displaystyle 2{\sqrt {3}}B}
0
{\displaystyle 0}
0
{\displaystyle 0}
−
3
6
/
2
B
{\displaystyle -3{\sqrt {6}}/2B}
−
6
/
2
B
{\displaystyle -{\sqrt {6}}/2B}
0
{\displaystyle 0}
t
2
3
(
2
T
1
)
e
2
(
1
E
)
{\displaystyle {t_{2}}^{3}({^{2}T_{1}})e^{2}({^{1}E})}
−
12
B
+
8
C
{\displaystyle -12B+8C}
−
10
3
B
{\displaystyle -10{\sqrt {3}}B}
0
{\displaystyle 0}
3
2
/
2
B
{\displaystyle 3{\sqrt {2}}/2B}
3
2
/
2
B
{\displaystyle 3{\sqrt {2}}/2B}
−
2
3
B
{\displaystyle -2{\sqrt {3}}B}
t
2
3
(
2
T
2
)
e
2
(
1
A
1
)
{\displaystyle {t_{2}}^{3}({^{2}T_{2}})e^{2}({^{1}A_{1}})}
2
B
+
12
C
{\displaystyle 2B+12C}
0
{\displaystyle 0}
−
5
6
/
2
B
{\displaystyle -5{\sqrt {6}}/2B}
−
3
6
/
2
B
{\displaystyle -3{\sqrt {6}}/2B}
4
B
+
2
C
{\displaystyle 4B+2C}
t
2
3
(
2
T
2
)
e
2
(
1
E
)
{\displaystyle {t_{2}}^{3}({^{2}T_{2}})e^{2}({^{1}E})}
−
6
B
+
10
C
{\displaystyle -6B+10C}
−
5
6
/
2
B
{\displaystyle -5{\sqrt {6}}/2B}
3
6
/
2
B
{\displaystyle 3{\sqrt {6}}/2B}
−
2
B
{\displaystyle -2B}
t
2
2
(
1
T
2
)
e
3
(
2
E
)
{\displaystyle {t_{2}}^{2}({^{1}T_{2}})e^{3}({^{2}E})}
10
D
q
−
18
B
+
9
C
{\displaystyle 10Dq-18B+9C}
3
B
{\displaystyle 3B}
−
6
B
{\displaystyle -{\sqrt {6}}B}
t
2
2
(
3
T
1
)
e
3
(
2
E
)
{\displaystyle {t_{2}}^{2}({^{3}T_{1}})e^{3}({^{2}E})}
10
D
q
−
8
B
+
9
C
{\displaystyle 10Dq-8B+9C}
−
3
6
B
{\displaystyle -3{\sqrt {6}}B}
t
2
e
4
{\displaystyle {t_{2}}e^{4}}
20
D
q
−
20
B
+
10
C
{\displaystyle 20Dq-20B+10C}
Energy Matrix for
2
T
1
(
2
P
,
a
2
F
,
b
2
F
,
a
2
G
,
b
2
G
,
2
H
,
2
I
)
{\displaystyle {^{2}T_{1}}({^{2}P},a{^{2}F},b{^{2}F},a{^{2}G},b{^{2}G},{^{2}H},{^{2}I})}
States
t
2
4
(
3
T
1
)
e
{\displaystyle {t_{2}}^{4}({^{3}T_{1}})e}
t
2
4
(
1
T
2
)
e
{\displaystyle {t_{2}}^{4}({^{1}T_{2}})e}
t
2
3
(
2
T
1
)
e
2
(
1
A
1
)
{\displaystyle {t_{2}}^{3}({^{2}T_{1}})e^{2}({^{1}A_{1}})}
t
2
3
(
2
T
1
)
e
2
(
1
E
)
{\displaystyle {t_{2}}^{3}({^{2}T_{1}})e^{2}({^{1}E})}
t
2
3
(
2
T
2
)
e
2
(
3
A
2
)
{\displaystyle {t_{2}}^{3}({^{2}T_{2}})e^{2}({^{3}A_{2}})}
t
2
3
(
2
T
2
)
e
2
(
1
E
)
{\displaystyle {t_{2}}^{3}({^{2}T_{2}})e^{2}({^{1}E})}
t
2
2
(
1
T
2
)
e
3
{\displaystyle {t_{2}}^{2}({^{1}T_{2}})e^{3}}
t
2
2
(
3
T
1
)
e
3
{\displaystyle {t_{2}}^{2}({^{3}T_{1}})e^{3}}
t
2
4
(
3
T
1
)
e
{\displaystyle {t_{2}}^{4}({^{3}T_{1}})e}
−
10
D
q
−
22
B
+
9
C
{\displaystyle -10Dq-22B+9C}
−
3
B
{\displaystyle -3B}
−
3
2
/
2
B
{\displaystyle -3{\sqrt {2}}/2B}
3
2
/
2
B
{\displaystyle 3{\sqrt {2}}/2B}
−
3
2
/
2
B
{\displaystyle -3{\sqrt {2}}/2B}
−
3
6
/
2
B
{\displaystyle -3{\sqrt {6}}/2B}
0
{\displaystyle 0}
C
{\displaystyle C}
t
2
4
(
1
T
2
)
e
{\displaystyle {t_{2}}^{4}({^{1}T_{2}})e}
−
10
D
q
−
8
B
+
9
C
{\displaystyle -10Dq-8B+9C}
3
2
/
2
B
{\displaystyle 3{\sqrt {2}}/2B}
3
2
/
2
B
{\displaystyle 3{\sqrt {2}}/2B}
15
2
/
2
B
{\displaystyle 15{\sqrt {2}}/2B}
5
6
/
2
B
{\displaystyle 5{\sqrt {6}}/2B}
4
B
+
C
{\displaystyle 4B+C}
0
{\displaystyle 0}
t
2
3
(
2
T
1
)
e
2
(
1
A
1
)
{\displaystyle {t_{2}}^{3}({^{2}T_{1}})e^{2}({^{1}A_{1}})}
−
4
B
+
10
C
{\displaystyle -4B+10C}
0
{\displaystyle 0}
0
{\displaystyle 0}
10
3
B
{\displaystyle 10{\sqrt {3}}B}
3
2
/
2
B
{\displaystyle 3{\sqrt {2}}/2B}
−
3
2
/
2
B
{\displaystyle -3{\sqrt {2}}/2B}
t
2
3
(
2
T
1
)
e
2
(
1
E
)
{\displaystyle {t_{2}}^{3}({^{2}T_{1}})e^{2}({^{1}E})}
−
12
B
+
8
C
{\displaystyle -12B+8C}
0
{\displaystyle 0}
0
{\displaystyle 0}
−
3
2
/
2
B
{\displaystyle -3{\sqrt {2}}/2B}
−
3
2
/
2
B
{\displaystyle -3{\sqrt {2}}/2B}
t
2
3
(
2
T
2
)
e
2
(
3
A
2
)
{\displaystyle {t_{2}}^{3}({^{2}T_{2}})e^{2}({^{3}A_{2}})}
−
10
B
+
10
C
{\displaystyle -10B+10C}
2
3
B
{\displaystyle 2{\sqrt {3}}B}
15
2
/
2
B
{\displaystyle 15{\sqrt {2}}/2B}
−
3
2
/
2
B
{\displaystyle -3{\sqrt {2}}/2B}
t
2
3
(
2
T
2
)
e
2
(
1
E
)
{\displaystyle {t_{2}}^{3}({^{2}T_{2}})e^{2}({^{1}E})}
−
6
B
+
10
C
{\displaystyle -6B+10C}
5
6
/
2
B
{\displaystyle 5{\sqrt {6}}/2B}
−
3
6
/
2
B
{\displaystyle -3{\sqrt {6}}/2B}
t
2
2
(
1
T
2
)
e
3
{\displaystyle {t_{2}}^{2}({^{1}T_{2}})e^{3}}
10
D
q
−
8
B
+
9
C
{\displaystyle 10Dq-8B+9C}
−
3
B
{\displaystyle -3B}
t
2
2
(
3
T
1
)
e
3
{\displaystyle {t_{2}}^{2}({^{3}T_{1}})e^{3}}
10
D
q
−
22
B
+
9
C
{\displaystyle 10Dq-22B+9C}