| 1. | Etalons with high finesse show sharper transmission peaks with lower minimum transmission coefficients.
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| 2. | To calculate reflection and transmission coefficients for the interface.
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| 3. | The formula for the normal-incidence transmission coefficient is
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| 4. | The reflection coefficient and the transmission coefficient are given by
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| 5. | Complex reflection and transmission coefficients in the complex plane.
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| 6. | Therefore, the transmission coefficient for a particle tunnelling through a single potential barrier is
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| 7. | Transmission coefficients can be calculated for either the amplitude or the intensity of the wave.
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| 8. | Decreasing the thickness of the top cell increases the transmission coefficient " T ".
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| 9. | The final step of the method involves converting the system matrix back into reflection and transmission coefficients.
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| 10. | Since the average value of \ cos ^ 2 \ theta is 1 / 2, the transmission coefficient becomes
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