1000 Solved Problems in Modern Physics

3.3 Solutions 193

3.44 (a)
Fig. 3.18Penetration of a
rectangular barrier

(b) Region 1,x< 0

d^2 ψ

dx^2

+k^2 ψ= 0

withk^2 =^2 mE 2

ψ 1 =Aeikx+Be−ikx

Incident reflected atx= 0

Region 2, 0<x<L

d^2 ψ

dx^2

−α^2 ψ= 0

withα^2 =^2 m(W 2 −E)

ψ 2 =Ce−αx+Deαx

Region 3,x>L

d^2 ψ

dx^2

+k^2 ψ= 0

withk^2 = 2 mE/^2

ψ 3 =Feikx

The second term is absent as there is no reflected wave coming from

right to left

The transmission coefficientT=|F|

2

|A|^2

(c) Boundary conditions

ψ 1 (0)=ψ 2 (0)

dψ 1

dx

∣

∣

∣

∣

x= 0

=

dψ 2

dx

∣

∣

∣

∣

x= 0

ψ 2 (L)=ψ 3 (L)

dψ 2

dx

∣

∣

∣

∣

x=L

=

dψ 3

dx

∣

∣

∣

∣

x=L

(d) T= 16

(E

W

)(

1 −WE

)

e−^2 αL

α^2 = 2 m

(

W−E

^2

)

→α=

√

2 mc^2 (W−E)

c

=

√

(2× 0. 511 ×(5−2)× 10 −^6

197. 3 × 10 −^15

= 8. 8748 × 109 m−^1