Mathematical Methods for Physics and Engineering : A Comprehensive Guide

(Darren Dugan) #1

29.11 PHYSICAL APPLICATIONS OF GROUP THEORY


4 mm IQR,R′ mx,my md,md′
A 1 11 1 1 1 z;z^2 ;x^2 +y^2
A 2 11 1 − 1 − 1 Rz
B 1 11 − 11 − 1 x^2 −y^2
B 2 11 − 1 − 11 xy
E 2 −20 0 0 (x, y); (xz, yz); (Rx,Ry)

Table 29.5 The character table for the irreps of group 4mm(orC 4 v). The
right-hand column lists some common functions, or, for the two-dimensional
irrep E, pairs of functions, that transform according to the irrep against which
they are shown.

Function Irrep Classes
I 2 C 3 3 σv
xy E2− 10
x E2− 10
x^2 −y^2 E2− 10

product 8 − 10

Table 29.6 The character sets, for the groupC 3 v(or 3mm), of three functions
and of their productx^2 y(x^2 −y^2 ).

Function Irrep Classes
IC 2 2 C 6 2 σv 2 σd
xy B 2 11 − 1 − 11
x E2−20 0 0
x^2 −y^2 B 1 11 − 11 − 1

product 2 −20 0 0

Table 29.7 The character sets, for the groupC 4 v(or 4mm), of three functions,
and of their productx^2 y(x^2 −y^2 ).

multiplying together the corresponding characters for each of the three elements. Now, by
inspection, or by applying (29.18), i.e.


mA 1 =^16 [1(1)(8) + 2(1)(−1) + 3(1)(0)] = 1,

we see that irrep A 1 does appear in the reduced representation of the product, and soJ
is not necessarily zero.
Case(ii). From table 29.5 we find that, under the groupC 4 v,xyandx^2 −y^2 transform
as irreps B 2 and B 1 respectively and thatxis part of a basis set transforming as E. Thus
the calculation table takes the form of table 29.7 (again, chemical notation for the classes
has been used).
Here inspection is sufficient, as the product is exactly that of irrep E and irrep A 1 is
certainly not present. ThusJis necessarily zero and the dipole matrix element vanishes.

Free download pdf