The Chemistry Maths Book, Second Edition

554 Chapter 19The matrix eigenvalue problem

EXAMPLE 19.18Show that the following matrix is Hermitian:

We have

0 Exercise 40

Unitary matrices

A complex square matrixUis called unitary when its Hermitian conjugate is equal to

its inverse,

U

†

1 = 1 U

− 1

(19.58)

The characteristic property of a unitary matrix is that its columns (and its rows)

form a unitary system of orthonormal vectors as defined by (19.56) (compare the

discussion of orthogonal matrices in Section 18.6). For order 3, let

(19.59)

wherea

†

a 1 = 1 b

†

b 1 = 1 c

†

c 1 = 11 anda

†

b 1 = 1 b

†

c 1 = 1 c

†

a 1 = 10. The Hermitian conjugate of Uis

(19.60)

and

(19.61)

0 Exercises 41, 42

UU

a

b

c

abc

aa ab ac

†

†

†

†

†††

==()





































bba bb bc

ca cb cc

†††

†††

























=





100

010

001





















=I

U

a

b

c

†

†

†

†

---

==**





































aaa

bb

123

12

bb

ccc

3

123

• 
  

---





























Uabc==



































()

abc

abc

abc

1 11

222

333



AA(A)

†

=

−

• 
  

















,==

• 
  

−





323

23 1

323

23 1

i

i

i

i

T













=A

A=

• 
  

−

















323

23 1

i

i