Physical Chemistry Third Edition

(C. Jardin) #1

1278 F Some Mathematics Used in Quantum Mechanics


The energy eigenfunction is

ψnxnynz(x,y,z)Csin

(nxπx
a

)

sin

(nyπy
b

)

sin

(nzπz
c

)

(F-24)

where we letCCxCyCz. The energy eigenvalue is

Enxnynz

h^2
8 m

(

n^2 x
a^2

+

n^2 y
b^2

+

n^2 z
c^2

)

(F-25)

We attach the three quantum numbersnx,ny, andnzto the symbolsψandE. A particular
energy eigenfunction is specified by giving the values of the three quantum numbers,
which we sometimes denote by writing the three quantum numbers in parentheses:
(nx,ny,nz).

F. 3 The Time-Independent Schrödinger

Equation for the Harmonic Oscillator
(the Hermite Equation)
The Schrödinger equation for the harmonic oscillator is given in Eq. (15.4-3):

d^2 ψ
dx^2

+(b−a^2 x^2 )ψ 0 (F-26)

The first step of Hermite’s solution to this equation is to find anasymptotic solution,
which is a solution that applies for very large magnitudes ofx. In this casebwill be
negligible compared witha^2 x^2 , so that

d^2 ψ
dx^2

−a^2 x^2 ψ≈ 0 (for large magnitudes ofx) (F-27)

The asymptotic solution is

ψ∞≈e±ax

(^2) / 2
(for large magnitudes ofx) (F-28)
We must choose the negative sign in the exponent to keep the solution finite as|x|
becomes large.
To represent the solution for all values ofx, we choose a trial solution of the form
ψ(x)ψ∞(x)S(x)e−ax
(^2) / 2
S(x) (F-29)
whereS(x) is a power series
S(x)c 0 +c 1 x+c 2 x^2 +c 3 x^3 +...


∑∞

n 0

cnxn (F-30)

with constant coefficientsc 1 ,c 2 ,c 3 ,.... We might have tried to represent the solution
by a power series instead of by a power series multiplied by the asymptotic solution,
but this leads to a solution that violates the condition that the wave function remains
finite for all values ofx.^9

(^9) Ira N. Levine,Quantum Chemistry, 5th ed., Prentice-Hall, Englewood Cliffs, NJ, 1991, p. 64ff.

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