Difference between revisions of "Attenuated Total Reflectance"
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The electro-optic coefficient for a poled polymer film can be calculated as follows. | The electro-optic coefficient for a poled polymer film can be calculated as follows. | ||
:<math>r_{33} = \frac { | :<math>r_{33} = \frac {2d\Delta R} {n^3_{TM} V_m} \frac {\sigma n_{eff}} {\sigma \theta} \left /( \frac {\sigma R \sigma n_{eff} } {\sigma \theta \sigma n_{TM} } \right ) \,\!</math> | ||
where | where | ||
Revision as of 16:03, 12 January 2010
Overview
Attenuated Total Reflection or ATR is a technique used together with Teng Mann to measure the R33 of electro-optic materials.
Technique
Significance
The electro-optic coefficient for a poled polymer film can be calculated as follows.
- <math>r_{33} = \frac {2d\Delta R} {n^3_{TM} V_m} \frac {\sigma n_{eff}} {\sigma \theta} \left /( \frac {\sigma R \sigma n_{eff} } {\sigma \theta \sigma n_{TM} } \right ) \,\!</math>
where
- <math>n_{TE}\,\!</math> is the ordinary index of refraction
- <math>n_{TM}\,\!</math> is the extraordinary index of refraction
- <math>E\,\!</math> is the modulating electric field