Consider the step potential function shown below. Assume that a flux of electrons has energy E and it is incident on a potential barrier of height V0 with E> V0. The electrons are traveling in the x direction and they are originated from x = -00. i. Find the transmission coefficient between regions I and |I. ii. Find the reflection coefficient between regions I and II. iii. Assume the electron velocity is 7.5x10^5 cm/s, E = V0/0.15 Find the probability that there is an electron at the distance "a = 50" A° after the barrier. iv. Determine the de Broglie wavelength in A? * Please use Schrodinger theory V(x) Incident particles Vo Region I Region II X = 0 Figure 2. The step potential function

Consider the step potential function shown below. Assume that a flux of electrons has energy E and it is incident on a potential barrier of height V0 with E> V0. The electrons are traveling in the x direction and they are originated from x = -00. i. Find the transmission coefficient between regions I and |I. ii. Find the reflection coefficient between regions I and II. iii. Assume the electron velocity is 7.5x10^5 cm/s, E = V0/0.15 Find the probability that there is an electron at the distance "a = 50" A° after the barrier. iv. Determine the de Broglie wavelength in A? * Please use Schrodinger theory V(x) Incident particles Vo Region I Region II X = 0 Figure 2. The step potential function

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Question

Consider the step potential function shown below. Assume that a flux of electrons has energy E and it
is incident on a potential barrier of height VO with E > VO. The electrons are traveling in the x direction
and they are originated from x = -o.
i. Find the transmission coefficient between regions I and II.
ii. Find the reflection coefficient between regions I and II.
ii. Assume the electron velocity is 7.5x10^5 cm/s, E = V0/0.15 Find the probability that there is an electron at the
distance "a = 50" A° after the barrier.
iv. Determine the de Broglie wavelength in A?
* Please use Schrodinger theory
V(x)
Incident particles
Vo
Region I
Region II
x = 0
Figure 2. The step potential function

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