Week of 9/11

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<math>E_t = (E_0 t^2) e^{i \omega L/c}\left[ 1 + r^2  e^{i \omega 2L/c}  + r^4  e^{i \omega 4L/c} ...\right] </math>
 
<math>E_t = (E_0 t^2) e^{i \omega L/c}\left[ 1 + r^2  e^{i \omega 2L/c}  + r^4  e^{i \omega 4L/c} ...\right] </math>
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Hence
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<math>E_t = (E_0 t^2) e^{i \omega L/c} \frac{ 1 - r^2m e^{i \omega 2mL/c}}{1 - r^2m e^{i \omega 2L/c}</math>

Revision as of 15:07, 13 September 2006

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Mathematica.png Download amplitude and phase spectrum of a single resonance.
Pdf.png Download 9/11/06 lecture notes

9/13/06: More on the Fabry-Perot etalon


E_t = (E_0 t^2) e^{i \omega L/c} + r^2 (E_0 t^2) e^{i \omega 3L/c} + r^4 (E_0 t^2) e^{i \omega 5L/c} .... \,

or

E_t = (E_0 t^2) e^{i \omega L/c}\left[ 1 + r^2 e^{i \omega 2L/c} + r^4 e^{i \omega 4L/c} ...\right]

Hence

Failed to parse (Cannot write to or create math temp directory): E_t = (E_0 t^2) e^{i \omega L/c} \frac{ 1 - r^2m e^{i \omega 2mL/c}}{1 - r^2m e^{i \omega 2L/c}

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