Electrons are fired at a rectangular potential energy barrier,
once every 197 ms. If the barrier is 2.55 nm thick and has a height
that exceeds the energy of the incident electrons by exactly 537
meV, how long on average would you expect to wait for one electron
to pass through the barrier?
Homework Answers
Tunneling probability is given by
Where V - E = 537 meV
L = barrier thickness = 2.55 nm
h = planck's constant = 6.626 x 
= 4.136 x 
m = mass of electron = 9.11 x 
= 0.511 MeV / 
Therefore 
Thus out of 
electrons only one electron will tunnel through barrier. Thus time
taken to tunnel one electron = 0.197 x
= 
seconds
Thus we will have to wait for
seconds for one electron to tunnel.
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