Exercise 2-3 Transmission Through a Prism. Use the following expression of transmittance through a variable thickness plate t(x, y) = ho exp[-j(n − 1)k,d(x, y)] to show that the complex amplitude transmittance of a thin inverted prism with small angle <<< 1 and width do, is t(x, y) = hoexp[-j(n - 1)k.xx], where ho = exp(-jkodo)? do
Exercise 2-3 Transmission Through a Prism. Use the following expression of transmittance through a variable thickness plate t(x, y) = ho exp[-j(n − 1)k,d(x, y)] to show that the complex amplitude transmittance of a thin inverted prism with small angle <<< 1 and width do, is t(x, y) = hoexp[-j(n - 1)k.xx], where ho = exp(-jkodo)? do
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Use the following expression of transmittance through a variable thickness plate to show that the complex amplitude transmittance of a thin inverted prism with small angle ∝≪1and width do, is t(x, y) = hoexp[-j(n -l)ko∝x], where ho= exp(-jkodo)
![Exercise 2-3 Transmission Through a Prism.
Use the following expression of transmittance through a variable thickness plate
<(x, y) = ho exp[ -j(n – 1)k,d(x, y)}
to show that the complex amplitude transmittance of a thin inverted prism with small angle
C« 1 and width do, is
t(x, y) = hoexp[-j(n - 1)k.cx], where ho = exp(-jkodo) ?
do](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fa7d8c1cd-b929-42f8-b6f5-71ce85623ad3%2Fbbbd45d5-e84e-469c-b6e1-65071e714959%2Fl36e0ns_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Exercise 2-3 Transmission Through a Prism.
Use the following expression of transmittance through a variable thickness plate
<(x, y) = ho exp[ -j(n – 1)k,d(x, y)}
to show that the complex amplitude transmittance of a thin inverted prism with small angle
C« 1 and width do, is
t(x, y) = hoexp[-j(n - 1)k.cx], where ho = exp(-jkodo) ?
do
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