User:Tohline/Appendix/CGH/ParallelAperturesConsolidate
CGH: Consolidate Expressions Regarding Parallel Apertures
One-dimensional Apertures
From our accompanying discussion of the Utility of FFT Techniques, we start with the most general expression for the amplitude at one point on an image screen, namely,
|
<math>~A(y_1)</math> |
<math>~=</math> |
<math>~\sum_j a_j e^{i(2\pi D_j/\lambda + \phi_j)} \, , </math> |
and, assuming that <math>~|Y_j/L| \ll 1</math> for all <math>~j</math>, deduce that,
|
<math>~A(y_1)</math> |
<math>~\approx</math> |
<math>~\sum_j a_j e^{i[ 2\pi L/\lambda + \phi_j]}\biggl[ \cos\biggl(\frac{2\pi y_1 Y_j}{\lambda L} \biggr) - i \sin\biggl(\frac{2\pi y_1 Y_j}{\lambda L} \biggr) \biggr] \, , </math> |
where,
|
<math>~L</math> |
<math>~\equiv</math> |
<math>~ Z \biggl[1 + \frac{y_1^2}{Z^2} \biggr]^{1 / 2} \, . </math> |
Note that <math>~L</math> is formally a function of <math>~y_1</math>, but in most of what follows it will be reasonable to assume, <math>~L \approx Z</math>.
See Also
- Updated Table of Contents
- Tohline, J. E., (2008) Computing in Science & Engineering, vol. 10, no. 4, pp. 84-85 — Where is My Digital Holographic Display? [ PDF ]
- Diffraction (Wikipedia)
- Various Google hits:
- Single Slit Diffraction (University of Tennessee, Knoxville)
- Diffraction from a Single Slit; Young's Experiment with Finite Slits (University of New South Wales, Sydney, Australia)
- Single Slit Diffraction Pattern of Light (University of British Columbia, Canada)
- Fraunhofer Single Slit (Georgia State University)
|
|---|
|
© 2014 - 2021 by Joel E. Tohline |