Point Group C10

Point Group C₁₀

C₁₀	E	C₁₀	C₅	(C₁₀)³	(C₅)²	C₂	(C₅)³	(C₁₀)⁷	(C₅)⁴	(C₁₀)⁹
A	1	1	1	1	1	1	1	1	1	1
B	1	-1	1	-1	1	-1	1	-1	1	-1
E₁*	2	2cos(π/5)	2cos(2π/5)	-2cos(2π/5)	-2cos(π/5)	-2	-2cos(π/5)	-2cos(2π/5)	2cos(2π/5)	2cos(π/5)
E₂*	2	2cos(2π/5)	-2cos(π/5)	-2cos(π/5)	2cos(2π/5)	2	2cos(2π/5)	-2cos(π/5)	-2cos(π/5)	2cos(2π/5)
E₃*	2	-2cos(2π/5)	-2cos(π/5)	2cos(π/5)	2cos(2π/5)	-2	2cos(2π/5)	2cos(π/5)	-2cos(π/5)	-2cos(2π/5)
E₄*	2	-2cos(π/5)	2cos(2π/5)	2cos(2π/5)	-2cos(π/5)	2	-2cos(π/5)	2cos(2π/5)	2cos(2π/5)	-2cos(π/5)

Phys View A
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Additional information

Number of symmetry elements	h = 10
Number of classes, irreps	n = 10
Number of real-valued irreducible representations	n = 6
Abelian group	yes
Optical Isomerism (Chirality)	yes
Polar	yes
Parity	no

Reduce representation to irreducible representations

E	C₁₀	C₅	(C₁₀)³	(C₅)²	C₂	(C₅)³	(C₁₀)⁷	(C₅)⁴	(C₁₀)⁹

Genrate representation from irreducible representations

A	B	E₁*	E₂*	E₃*	E₄*

Direct products of irreducible representations

**Binary products**
⊙	A	B	E₁*	E₂*	E₃*	E₄*
A	A
B	B	A
E₁*	E₁	E₄	2A⊕E₂
E₂*	E₂	E₃	E₁⊕E₃	2A⊕E₄
E₃*	E₃	E₂	E₂⊕E₄	2B⊕E₁	2A⊕E₄
E₄*	E₄	E₁	2B⊕E₃	E₂⊕E₄	E₁⊕E₃	2A⊕E₂

Ternary Products
Quaternary Products

Symmetric powers [Γⁿ] of degenerate irreducible representations
Vibrational overtones

irrep	[Γ²]	[Γ³]	[Γ⁴]	[Γ⁵]	[Γ⁶]
E₁*	A⊕E₂	E₁⊕E₃	A⊕E₂⊕E₄	2B⊕E₁⊕E₃	A⊕E₂⊕2E₄	More
E₂*	A⊕E₄	E₂⊕E₄	A⊕E₂⊕E₄	2A⊕E₂⊕E₄	A⊕2E₂⊕E₄	More
E₃*	A⊕E₄	E₁⊕E₃	A⊕E₂⊕E₄	2B⊕E₁⊕E₃	A⊕2E₂⊕E₄	More
E₄*	A⊕E₂	E₂⊕E₄	A⊕E₂⊕E₄	2A⊕E₂⊕E₄	A⊕E₂⊕2E₄	More

Spherical harmonics and Multipoles
Symmetric Powers of Γ_xyz

Spherical Harmonics Y^l / Multipole				Symmetric Power [Γ^l(xyz)]
l	2l+1	Multipole	Symmetry	Rank	[Γ^l(xyz)]
s (l=0)	1	Monopole	A	1	A
p (l=1)	3	Dipole	A⊕E₁	3	A⊕E₁
d (l=2)	5	Quadrupole	A⊕E₁⊕E₂	6	2A⊕E₁⊕E₂
f (l=3)	7	Octupole	A⊕E₁⊕E₂⊕E₃	10	2A⊕2E₁⊕E₂⊕E₃
g (l=4)	9	Hexadecapole	A⊕E₁⊕E₂⊕E₃⊕E₄	15	3A⊕2E₁⊕2E₂⊕E₃⊕E₄
h (l=5)	11	Dotricontapole	A⊕2B⊕E₁⊕E₂⊕E₃⊕E₄	21	3A⊕2B⊕3E₁⊕2E₂⊕2E₃⊕E₄
i (l=6)	13	Tetrahexacontapole	A⊕2B⊕E₁⊕E₂⊕E₃⊕2E₄	28	4A⊕2B⊕3E₁⊕3E₂⊕2E₃⊕3E₄
j (l=7)	15	Octacosahectapole	A⊕2B⊕E₁⊕E₂⊕2E₃⊕2E₄	36	4A⊕4B⊕4E₁⊕3E₂⊕4E₃⊕3E₄
k (l=8)	17	256-pole	A⊕2B⊕E₁⊕2E₂⊕2E₃⊕2E₄	45	5A⊕4B⊕4E₁⊕5E₂⊕4E₃⊕5E₄
l (l=9)	19	512-pole	A⊕2B⊕2E₁⊕2E₂⊕2E₃⊕2E₄	55	5A⊕6B⊕6E₁⊕5E₂⊕6E₃⊕5E₄
m (l=10)	21	1024-pole	3A⊕2B⊕2E₁⊕2E₂⊕2E₃⊕2E₄	66	8A⊕6B⊕6E₁⊕7E₂⊕6E₃⊕7E₄
n (l=11)	23	2048-pole	3A⊕2B⊕3E₁⊕2E₂⊕2E₃⊕2E₄	78	8A⊕8B⊕9E₁⊕7E₂⊕8E₃⊕7E₄
o (l=12)	25	4096-pole	3A⊕2B⊕3E₁⊕3E₂⊕2E₃⊕2E₄	91	11A⊕8B⊕9E₁⊕10E₂⊕8E₃⊕9E₄
More

First nonvanshing multipole: Dipole

Further Reading

A. Gelessus, W. Thiel, W. Weber. J. Chem. Educ. 72 505 (1995)
Multipoles and symmetry

Ligand Field, dⁿ term splitting

**Term symbols for electronic configurations dⁿ**
dⁿ	Term Symbols
d¹ = d⁹	²D
d² = d⁸	¹S, ¹D, ¹G, ³P, ³F
d³ = d⁷	²P, ²D (2), ²F, ²G, ²H, ⁴P, ⁴F
d⁴ = d⁶	¹S (2), ¹D (2), ¹F, ¹G (2), ¹I, ³P (2), ³D, ³F (2), ³G, ³H, ⁵D
d⁵	²S, ²P, ²D (3), ²F (2), ²G (2), ²H, ²I, ⁴P, ⁴D, ⁴F, ⁴G, ⁶S

**Term splitting in point group C₁₀**
L	2L+1	Term Splitting
S (L=0)	1	A
P (L=1)	3	A⊕E₁
D (L=2)	5	A⊕E₁⊕E₂
F (L=3)	7	A⊕E₁⊕E₂⊕E₃
G (L=4)	9	A⊕E₁⊕E₂⊕E₃⊕E₄
H (L=5)	11	A⊕2B⊕E₁⊕E₂⊕E₃⊕E₄
I (L=6)	13	A⊕2B⊕E₁⊕E₂⊕E₃⊕2E₄

Last update November, 13^th 2023 by A. Gelessus, Impressum, Datenschutzerklärung/DataPrivacyStatement