Tunneling and transmission coefficient

In summary, when an ensemble of quantum particles with energy E encounters a wide potential barrier V0 > E, the wavefunction will decay exponentially within the barrier. This means that the probability of detecting an electron within the barrier is small. However, the reflection coefficient of the probability current is always unity. This is because for a very wide barrier, the transmission coefficient becomes very small and the probability amplitude inside the barrier decreases. This can be seen in a Shockwave movie where the width of the barrier can be modified to observe the behavior of the probability density.
  • #1
Sacroiliac
13
1
If an ensemble of quantum partcles, with energy E, traveling in x direction encounter a very wide potential barrier V0 > E, the ensemble wavefunction will exponentially decay within the barrier.

I thought that meant that there was a small probability of detecting an electron within the barrier. But the reflection coefficient of the probability current is unity. So what’s going on here?
 
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  • #2
For a very wide barrier, the inverse if the transmission coefficient (T) goes to infinity, so T --> 0 and R --> 1, like you said. The probabilty density of the wavefunction does decay exponentially within the barrier, but the amplitude decreases as the width of the barrier increases. So, for a very wide barrier, the probability amplitude inside the barrier would be extrememly small. If we take the extreme case where R = 1, then the probability amplitude would basically be zero.

Here is a Shockwave movie that might help. Modify the width, and watch the behavior of the probability density.

http://phys.educ.ksu.edu/vqm/html/qtunneling.html
 
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1. What is tunneling and why is it important in science?

Tunneling is a quantum mechanical phenomenon in which a particle has a non-zero probability of crossing through a potential barrier, despite lacking the energy to do so according to classical physics. It is important in many areas of science, such as nuclear physics, solid state physics, and chemistry.

2. How is the transmission coefficient related to tunneling?

The transmission coefficient is a measure of the probability that a particle will successfully tunnel through a potential barrier. It is related to the tunneling probability by the equation T = e-2Kd, where K is the wave number of the particle and d is the width of the barrier.

3. Can tunneling occur with macroscopic objects?

No, tunneling is a purely quantum phenomenon and is only observed at the microscopic level. Macroscopic objects have too much mass and energy to exhibit tunneling behavior.

4. What factors affect the transmission coefficient in tunneling?

The transmission coefficient is affected by factors such as the energy of the particle, the width and shape of the potential barrier, and the mass of the particle. It also depends on the angle and spin of the particle, as well as any external forces acting on it.

5. How is tunneling used in technology?

Tunneling plays a crucial role in many modern technologies, such as scanning tunneling microscopes, tunnel diodes, and flash memory in computers. It is also used in quantum computing and in the development of new materials for electronics and energy storage.

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