3.3 Solutions 201
The boundary condition thatu/rbe finite atr=0 demands thatb=0.
Thus,ψis proportional torl. The probability that a particle be in a spherical
shell of radiirandr+drfor smallr, is proportional tor^2 l+^2 dr. The largerl
is, the smaller is the probability that the particle be in the vicinity of the origin.
For the case of collision problems, there is a classical analogy: the larger the
orbital angular momentum the larger the impact parameter.
Thusu(r)∼rl+^1 (r→0)
For→∞, we obtain, as an approximation to differential equation (3), as
d^2 u
dr^2−
2 μγ^2 r^2 u
^2= 0
If we try a solution of the form,
u(r)=u 0 e−Br(^2) / 2
the asymptotically valid solution is satisfied provided we change
B=
γ(2μ)1
2
=
μω
Inorder to solve (3) for allr, we may first separate the asymptotic behaviour
by writingu(r)=rl+^1 eBr(^2) / 2
V(r)(5)
Insert (5) in (3), and dividing byrl+^1 e−Bν
(^2) / 2
We get
d^2 ν
dr^2
+
2dv
dr[(
l+ 1
r)
−Br]
−Bv[
2 l+ 3 −2
ω(V 0 +E)
]
DefineC=l+^324 A= 2 l+ 3 −2
ω(V 0 +E)(6)
d^2 v
dr^2+
dv
dr[(
2 C− 1
r)
− 2 Br]
− 4 ABv=0(7)SetFig. 3.22The parabolic
potential of the three
dimensional harmonic
oscillator