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The transmission coefficient in quantum tunneling can be derived using various methods, including both statistical and theoretical approaches. One commonly used theoretical approach is based on the WKB (Wentzel-Kramers-Brillouin) approximation.

The WKB approximation is a semiclassical method that combines classical and quantum mechanical concepts. It assumes that the wave function of a particle can be represented as a product of an amplitude and a phase term. By applying this approximation to the Schrödinger equation, one can derive an expression for the transmission coefficient.

The transmission coefficient, denoted by T, represents the probability that a particle incident on a potential barrier will tunnel through it rather than being reflected. It is defined as the ratio of the transmitted flux to the incident flux. In the case of a one-dimensional potential barrier, the transmission coefficient can be calculated using the following formula:

T = e^(-2κd)

where κ is the imaginary wave number inside the barrier and d is the width of the barrier. The wave number κ is related to the energy of the particle and the shape of the potential barrier. The exponential term represents the probability of the particle tunneling through the barrier.

The WKB approximation is an approximation scheme that works well for low barrier heights or thin barriers, where the tunneling probability is significant. For higher barriers or thicker barriers, more advanced methods, such as numerical methods or computational approaches, may be used to calculate the transmission coefficient.

In summary, while the transmission coefficient can be derived using theoretical methods like the WKB approximation, the calculation often involves statistical interpretation in terms of probabilities and fluxes associated with quantum particles.

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