MIT 2.71/2.710 Optics 10/25/04 wk8-a-1 The spatial frequency domain.
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Transcript of MIT 2.71/2.710 Optics 10/25/04 wk8-a-1 The spatial frequency domain.
![Page 1: MIT 2.71/2.710 Optics 10/25/04 wk8-a-1 The spatial frequency domain.](https://reader035.fdocuments.in/reader035/viewer/2022062618/55150212550346b0478b658f/html5/thumbnails/1.jpg)
MIT 2.71/2.710 Optics 10/25/04 wk8-a-1
The spatial frequency domain
![Page 2: MIT 2.71/2.710 Optics 10/25/04 wk8-a-1 The spatial frequency domain.](https://reader035.fdocuments.in/reader035/viewer/2022062618/55150212550346b0478b658f/html5/thumbnails/2.jpg)
MIT 2.71/2.710 Optics 10/25/04 wk8-a-2
Recall: plane wave propagation
path delay increaseslinearly with x
plane of observation
![Page 3: MIT 2.71/2.710 Optics 10/25/04 wk8-a-1 The spatial frequency domain.](https://reader035.fdocuments.in/reader035/viewer/2022062618/55150212550346b0478b658f/html5/thumbnails/3.jpg)
MIT 2.71/2.710 Optics 10/25/04 wk8-a-3
Spatial frequency ⇔angle of propagation?
plane of observation
electric field
![Page 4: MIT 2.71/2.710 Optics 10/25/04 wk8-a-1 The spatial frequency domain.](https://reader035.fdocuments.in/reader035/viewer/2022062618/55150212550346b0478b658f/html5/thumbnails/4.jpg)
MIT 2.71/2.710 Optics 10/25/04 wk8-a-4
Spatial frequency ⇔angle of propagation?
plane of observation
![Page 5: MIT 2.71/2.710 Optics 10/25/04 wk8-a-1 The spatial frequency domain.](https://reader035.fdocuments.in/reader035/viewer/2022062618/55150212550346b0478b658f/html5/thumbnails/5.jpg)
MIT 2.71/2.710 Optics 10/25/04 wk8-a-5
The cross-section of the optical field with the optical axisis a sinusoid of the form
Spatial frequency ⇔angle of propagation?
i.e.it looks like
where
is called the spatial frequencyspatial frequency
![Page 6: MIT 2.71/2.710 Optics 10/25/04 wk8-a-1 The spatial frequency domain.](https://reader035.fdocuments.in/reader035/viewer/2022062618/55150212550346b0478b658f/html5/thumbnails/6.jpg)
MIT 2.71/2.710 Optics 10/25/04 wk8-a-6
2D sinusoids
![Page 7: MIT 2.71/2.710 Optics 10/25/04 wk8-a-1 The spatial frequency domain.](https://reader035.fdocuments.in/reader035/viewer/2022062618/55150212550346b0478b658f/html5/thumbnails/7.jpg)
MIT 2.71/2.710 Optics 10/25/04 wk8-a-7
2D sinusoids
min
max
![Page 8: MIT 2.71/2.710 Optics 10/25/04 wk8-a-1 The spatial frequency domain.](https://reader035.fdocuments.in/reader035/viewer/2022062618/55150212550346b0478b658f/html5/thumbnails/8.jpg)
MIT 2.71/2.710 Optics 10/25/04 wk8-a-8
2D sinusoids
min
max
![Page 9: MIT 2.71/2.710 Optics 10/25/04 wk8-a-1 The spatial frequency domain.](https://reader035.fdocuments.in/reader035/viewer/2022062618/55150212550346b0478b658f/html5/thumbnails/9.jpg)
MIT 2.71/2.710 Optics 10/25/04 wk8-a-9
2D sinusoids
min
max
![Page 10: MIT 2.71/2.710 Optics 10/25/04 wk8-a-1 The spatial frequency domain.](https://reader035.fdocuments.in/reader035/viewer/2022062618/55150212550346b0478b658f/html5/thumbnails/10.jpg)
MIT 2.71/2.710 Optics 10/25/04 wk8-a-10
Periodic Grating /1: vertical
Spacedomain
Frequency(Fourier)domain
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Periodic Grating /2: tilted
Spacedomain
Frequency(Fourier)domain
MIT 2.71/2.710 Optics 10/25/04 wk8-a-11
![Page 12: MIT 2.71/2.710 Optics 10/25/04 wk8-a-1 The spatial frequency domain.](https://reader035.fdocuments.in/reader035/viewer/2022062618/55150212550346b0478b658f/html5/thumbnails/12.jpg)
Superposition: multiple gratings
Spacedomain
Frequency(Fourier)domain
MIT 2.71/2.710 Optics 10/25/04 wk8-a-12
![Page 13: MIT 2.71/2.710 Optics 10/25/04 wk8-a-1 The spatial frequency domain.](https://reader035.fdocuments.in/reader035/viewer/2022062618/55150212550346b0478b658f/html5/thumbnails/13.jpg)
MIT 2.71/2.710 Optics 10/25/04 wk8-a-13
More superpositions
Spacedomain
Frequency(Fourier)domain
![Page 14: MIT 2.71/2.710 Optics 10/25/04 wk8-a-1 The spatial frequency domain.](https://reader035.fdocuments.in/reader035/viewer/2022062618/55150212550346b0478b658f/html5/thumbnails/14.jpg)
MIT 2.71/2.710 Optics 10/25/04 wk8-a-14
Size of object vsfrequency content
Spacedomain
Frequency(Fourier)domain
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MIT 2.71/2.710 Optics 10/25/04 wk8-a-15
Superimposing shifted objects
Spacedomain
Frequency(Fourier)domain
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MIT 2.71/2.710 Optics 10/25/04 wk8-a-16
Linear shift invariant systemsin the time domain
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MIT 2.71/2.710 Optics 10/25/04 wk8-a-17
Linear shift invariant systems
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MIT 2.71/2.710 Optics 10/25/04 wk8-a-18
Linear shift invariant systems
impulse excitation impulse excitation
shift invarianceshift invariance
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MIT 2.71/2.710 Optics 10/25/04 wk8-a-19
Linear shift invariant systems
impulse excitation impulse excitation
linearitylinearity
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MIT 2.71/2.710 Optics 10/25/04 wk8-a-20
Linear shift invariant systems
arbitrary
sifting property of the δ-function convolution integral
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MIT 2.71/2.710 Optics 10/25/04 wk8-a-21
Linear shift invariant systems
sinusoid sinusoid
attenuationphase delay
transfer function transfer function
same frequency
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MIT 2.71/2.710 Optics 10/25/04 wk8-a-22
From time to frequency: Fourier analysis
Can I express an arbitrary g(t) as a superposition of sinusoids?
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MIT 2.71/2.710 Optics 10/25/04 wk8-a-23
The Fourier integral
(aka inverse Fourier transforminverse Fourier transform)
superposition sinusoids
complex weight,expresses relative amplitude
(magnitude & phase) of superposed sinusoids
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MIT 2.71/2.710 Optics 10/25/04 wk8-a-24
The Fourier transform
The complex weight coefficients G(ν),akaFourier transform Fourier transform o
f g(t)are calculated from the integral
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MIT 2.71/2.710 Optics 10/25/04 wk8-a-25
Fourier transform pairs
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MIT 2.71/2.710 Optics 10/25/04 wk8-a-26
2D2D Fourier transform pairs pairs
Image removed due to copyright concerns
(from Goodman, Introduction to Fourier Optics, page 14)