lecture vii tunneling. tunneling an electron of such an energy will never appear here! classically e...
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Potential barriers and tunneling
According to Newtonian mechanics, if the total energy is E, a particle that is on the left side of the barrier can go no farther than x=0. If the total energy is greater than U0, the particle can pass the barrier.
Tunneling – quantum approach
Schroedinger eq. for region x>L
EUdx
dm 02
22
2
)(2
022
2
EUm
dx
d
Solution: xAex )(
Potential barriers and tunneling
)(2
)(2
022
022 EU
mAeEU
meA xx
Two solutions: )(2
021 EUm
or )(2
022 EUm
Normalization condition: 1)(0
dxx
Solution: xAex 2)(
The probability to find a particle in the region II within
xxEUm
Axpr
002
20 )(
22exp)(
x
Potential barriers and tunneling
example
Let electrons of kinetic energy E=2 eV hit the barrier height of energy U0= 5 eV and the width of L=1.0 nm. Find the percent of electrons passing through the barrier?
LEU
mUE
UE
II
Tpad
trans )(2
2exp116 000 T=7.1·10-8
insulator
semiconductor
metalA
If L=0.5 nm.then T=5.2 ·10-4!
Image downloaded from IBM, Almaden, Calif.It shows 48 Fe atoms arranged on a Cu (111) surface
Scanning tunneling electron miscroscope