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2. Reflection coefficient - Wikipedia

   en.wikipedia.org/wiki/Reflection_coefficient

   In telecommunications and transmission line theory, the reflection coefficient is the ratio of the complex amplitude of the reflected wave to that of the incident wave. The voltage and current at any point along a transmission line can always be resolved into forward and reflected traveling waves given a specified reference impedance Z 0.

3. Fresnel equations - Wikipedia

   en.wikipedia.org/wiki/Fresnel_equations

   The complex amplitude coefficients for reflection and transmission are usually represented by lower case r and t (whereas the power coefficients are capitalized). As before, we are assuming the magnetic permeability, µ of both media to be equal to the permeability of free space µ 0 as is essentially true of all dielectrics at optical frequencies.

4. Zoeppritz equations - Wikipedia

   en.wikipedia.org/wiki/Zoeppritz_equations

   In the Shuey equation, R(0) is the reflection coefficient at normal incidence and is controlled by the contrast in acoustic impedances. G, often referred to as the AVO gradient, describes the variation of reflection amplitudes at intermediate offsets and the third term, F, describes the behaviour at large angles/far offsets that are close to ...

5. Fresnel rhomb - Wikipedia

   en.wikipedia.org/wiki/Fresnel_rhomb

   To the right of the critical angle is the region of total reflection; there both reflection coefficients are complex with magnitudes equal to 1. In Fig. 2, the phase difference δ is computed by a final subtraction; but there are other ways of expressing it. Fresnel himself, in 1823, [14] gave a formula for cos δ. Born and Wolf (1970, p.

6. Amplitude versus offset - Wikipedia

   en.wikipedia.org/wiki/Amplitude_versus_offset

   In the Shuey equation, R(0) is the reflection coefficient at normal incidence and is controlled by the contrast in acoustic impedances. G, often referred to as the AVO gradient, describes the variation of reflection amplitudes at intermediate offsets and the third term, F, describes the behaviour at large angles/far offsets that are close to ...

7. Stokes relations - Wikipedia

   en.wikipedia.org/wiki/Stokes_relations

   Thus, whatever phase is associated with reflection on one side of the interface, it is 180 degrees different on the other side of the interface. For example, if r has a phase of 0, r’ has a phase of 180 degrees. Explicit values for the transmission and reflection coefficients are provided by the Fresnel equations

8. Reflectance - Wikipedia

   en.wikipedia.org/wiki/Reflectance

   Reflectivity is the square of the magnitude of the Fresnel reflection coefficient, [4] which is the ratio of the reflected to incident electric field; [5] as such the reflection coefficient can be expressed as a complex number as determined by the Fresnel equations for a single layer, whereas the reflectance is always a positive real number.

9. Hagen–Rubens relation - Wikipedia

   en.wikipedia.org/wiki/Hagen–Rubens_relation

   In optics, the Hagen–Rubens relation (or Hagen–Rubens formula) is a relation between the coefficient of reflection and the conductivity for materials that are good conductors. [1] The relation states that for solids where the contribution of the dielectric constant to the index of refraction is negligible, the reflection coefficient can be ...