1000 Solved Problems in Modern Physics

(Tina Meador) #1

184 3 Quantum Mechanics – II


Fig. 3.13


For (a) the inside and outside wave functions are as in the deuteron
Problem 3.19. For (b) the inside wave function is similar but the outside
function becomes constant (W 1 =0) and is a horizontal line.

3.36 (a) Class I: Refer to Problem 3.25
ψ 1 =Aeβx(−∞<x<−a)
ψ 2 =Dcosax(−a<x<+a)
ψ 3 =Ae−βx(a<x<∞)
Normalization implies that
∫−a

−∞

|ψ 1 |^2 dx+

∫a

−a

|ψ 2 |^2 dx+

∫∞

a

|ψ 3 |^2 dx= 1
∫−a

−∞

A^2 e^2 βxdx+

∫a

−a

D^2 cos^2 αxdx+

∫∞

a

A^2 e−^2 βxdx= 1

A^2 e−^2 βa
2 β

+D^2

[

a+

sin(2αa)
2 α

]

+

A^2 e
− 2 βa

2 β

= 1

Or
A^2 e−^2 βa/β+D^2 (a+sin(2αa)/ 2 α)=1(1)
Boundary condition atx=agives
Dcosαa=ae−βa (2)
Combining (1) and (2) gives

D=

(

a+

1

β

)− 1

A=eβacosαa

(

a+

1

β

)− 1
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