836 20 The Electronic States of Diatomic Molecules
LCAOMOs for Additional Excited States of H+ 2
The wave functions for additional excited states of H+ 2 are approximated by
LCAOMOs using higher-energy hydrogen-like orbitals as basis functions. Two linear
combinations of 2sorbitals that are eigenfunctions of the appropriate symmetry oper-
ators are:
ψσg 2 sCg[ψ 2 s(rA)+ψ 2 s(rB)]Cg[ψ 2 sA+ψ 2 sB] (20.2-9)
ψσ∗u 2 sCu[ψ 2 s(rA)−ψ 2 s(rB)]Cu[ψ 2 sA−ψ 2 sB] (20.2-10)
Theσg 2 sorbital is a bonding orbital, and theσ∗u 2 sorbital is an antibonding orbital.
Theσg 2 sorbital energy is higher than that of theσ∗u 1 santibonding orbital since the
H+ 2 molecule ion dissociates from theσg 2 sstate to a hydrogen nucleus and a hydrogen
atom in the 2sstate, as shown schematically in Figure 20.9. In a later section of this
chapter we will obtain still more LCAOMOs, constructed as linear combinations of
the 2pand higher-energy atomic orbitals.
(a)
(b)
H 21 molecule
ion
1
H atom in
2 s state
Bare
proton
(^) g 2 s
(^) g 2 s
u 2 s
(^) g 1 s
u 1 s
EBO
/eV
R/10^210 m
1
2 13.6
2 3.4
2 3
Figure 20.9 (a) The orbital regions before and after dissociation of a hydrogen molecule
ion in theσg 2 sstate. (b) The energy levels of the LCAO molecular orbitals as a function of
internuclear distance.