review of optics - visual optics institutevoi.opt.uh.edu/1_roorda_opticprinciples.pdf · 2 mm 4 mm...
TRANSCRIPT
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Review of Optics Austin Roorda, Ph.D.
University of California, Berkeley
victorhorvath.com
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Geometrical Optics
Relationships between pupil size, refractive error and
blur
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2 mm 4 mm 6 mm
Optics of the eye: Depth of Focus
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2 mm 4 mm 6 mm
In focus
Focused in front of retina
Focused behind retina
Optics of the eye: Depth of Focus
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Demonstration Role of Pupil Size and Defocus on Retinal Blur
Draw a cross like this one on a page. Hold it so close that is it completely out of focus, then squint. You should see the horizontal line become clear. The line becomes clear because you have used your eyelids to make your effective pupil size smaller, thereby reducing the blur due to defocus on the retina image. Only the horizontal line appears clear because you have only reduced the blur in the horizontal direction.
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Computation of Geometrical Blur Size
where D is the defocus in diopters
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Application of Blur Equation
• 1 D defocus, 8 mm pupil produces 27.52 minute blur size ~ 0.5 degrees
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Physical Optics
The Wavefront
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What is the Wavefront?
converging beam =
spherical wavefront
parallel beam =
plane wavefront
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What is the Wavefront?
ideal wavefront parallel beam =
plane wavefront defocused wavefront
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What is the Wavefront? parallel beam
= plane wavefront aberrated beam
= irregular wavefront
ideal wavefront
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What is the Wavefront?
aberrated beam =
irregular wavefront
diverging beam =
spherical wavefront
ideal wavefront
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The Wave Aberration
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What is the Wave Aberration? diverging beam
= spherical wavefront wave aberration
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-2 -1 0 1 2 -2.5
-2
-1.5
-1
-0.5
0
0.5
1
1.5
2
mm (right-left)
mm
(sup
erio
r-in
ferio
r)
Wave Aberration Contour Map
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-3 -2 -1 0 1 2 3
-3
-2
-1
0
1
2
3
Wavefront Aberration
mm (right-left)
mm
(sup
erio
r-in
ferio
r)
Wave Aberration: Defocus
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-3 -2 -1 0 1 2 3
-3
-2
-1
0
1
2
3
Wavefront Aberration
mm (right-left)
mm
(sup
erio
r-in
ferio
r)
Wave Aberration: Coma
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-3 -2 -1 0 1 2 3
-3
-2
-1
0
1
2
3
Wavefront Aberration
mm (right-left) m
m (s
uper
ior-
infe
rior)
Wave Aberration: Complex Aberration
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Zernike Polynomials
• It’s convenient to have a mathematical
expression to describe the wave aberration
– allows us to compute metrics
– allows to display data in different forms
– allows us to breakdown data into different
components (remove defocus, for example)
• Zernike polynomials are a convenient equation
to use to fit wave aberration data for the eye
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Zernike Polynomials are not a big deal!
• they are just an equation used to fit data – y=mx+b is used to fit linear data
– y=ax2+bx+c is used to fit parabolic data
– Z(x,y) are useful for fitting ocular wave aberration data
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Zernike polynomial components
what magnitude of each of these shapes is present in my wave
aberration data?
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Breakdown of Zernike Terms
-0.5 0 0.5 1 1.5 2 1 2 3 4 5 6 7 8 9
10 11 12 13 14 15 16 17 18 19 20
Zern
ike
term
Coefficient value (microns)
astig. defocus
astig. trefoil coma coma trefoil
spherical aberration
2nd order
3rd order
4th order
5th order
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OTF (optical transfer function)
PTF (phase) MTF (contrast)
PSF (point spread function)
Image Quality Metrics
The Reason we Measure the Wave Aberration
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The Point Spread Function
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The Point Spread Function, or PSF, is the image that an optical system forms of a point source.
The point source is the most fundamental object, and forms the basis for any complex
object.
The PSF is analogous to the Impulse Response Function in electronics.
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Airy Disc
The PSF for a perfect optical system is not a point, but is made up a core surrounded by
concentric rings of diminishing intensity
It is called the Airy disc.
The Point Spread Function
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Airy Disk
θ
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0
0.5
1
1.5
2
2.5
1 2 3 4 5 6 7 8 pupil diameter (mm)
PS
F A
iry D
isk
radi
us (m
inut
es)
As the pupil size gets larger, the Airy disc gets smaller.
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Point Spread Function vs. Pupil Size
1 mm 2 mm 3 mm 4 mm 5 mm 6 mm 7 mm
Perfect Eye
Typical Eye
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Resolution
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Rayleigh resolution
limit
Unresolved point sources
Resolved
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0
0.5
1
1.5
2
2.5
1 2 3 4 5 6 7 8 pupil diameter (mm)
reso
lutio
n in
min
utes
of a
rc
As the pupil size gets larger, the potential resolution improves
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Minutes of arc
20/20 20/10 5
arcm
in
2.5
arcm
in
1 arcmin
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Keck telescope (10 m pupil)
About 4500 times better than the eye!
(0.022 arcseconds resolution)
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Convolution
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Convolution
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Simulated Images
20/40 letters
20/20 letters
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MTF Modulation Transfer
Function
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low medium high
object: 100% contrast
image
spatial frequency
cont
rast
1
0
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0
0.5
1
0 50 100 150 200 250 300
1 mm 2 mm 4 mm 6 mm 8 mm
mod
ulat
ion
tran
sfer
spatial frequency (c/deg)
cut-off frequency
Rule of thumb: cutoff frequency increases by ~30 c/d for each mm increase in pupil size
MTF: Cutoff Frequency
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Spatial frequency
20/20 20/10
5 ar
cmin
2.5
arcm
in 30 cyc/deg
60 cyc/deg
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Modulation Transfer Function
vertical spatial frequency (c/d)
horizontal spatial frequency (c/d) c/deg -100 0 100
0.2 0.4 0.6 0.8
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PTF Phase Transfer
Function
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object
image
spatial frequency
phas
e sh
ift 180
0
-180
low medium high
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Phase Transfer Function
• Contains information about asymmetry in the PSF
• Contains information about contrast reversals (spurious resolution)
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The Importance of Phase
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Relationships Between Wave Aberration,
PSF and MTF
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PSF (point spread function)
OTF (optical transfer function)
PTF (phase) MTF (contrast)
Image Quality Metrics
The Reason we Measure the Wave Aberration
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The PSF is the Fourier Transform (FT) of the pupil function
The MTF is the amplitude component of the FT of the PSF
The PTF is the phase component of the FT of the PSF
The OTF (MTF and PTF) can also be computed as the autocorrelation of the pupil function
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mm (right-left) -2 -1 0 1 2
-0.5 0 0.5
c/deg -100 0 100 0.2 0.4 0.6 0.8
c/deg -100 0 100
-0.5 0 0.5
arcsec -200 -100 0 100 200
Point Spread Function Wavefront Aberration
Modulation Transfer Function Phase Transfer Function
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-200 -100 0 100 200 mm (right-left)
Wavefront Aberration
-2 -1 0 1 2 -0.5
0
0.5
c/deg
Modulation Transfer Function
-100 0 100 0.2 0.4 0.6 0.8
c/deg
Phase Transfer Function
-100 0 100 -150 -100 -50 0 50 100 150
arcsec
Point Spread Function
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c/deg -100 0 100 -150 -100 -50 0 50 100 150
c/deg -100 0 100 0.2 0.4 0.6 0.8
mm (right-left) -2 -1 0 1 2 -0.5 0 0.5 1 1.5
-1000 -500 0 500 1000
Wavefront Aberration
Modulation Transfer Function Phase Transfer Function
arcsec
Point Spread Function
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Conventional Metrics to Define Imagine Quality
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Root Mean Square
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Root Mean Square: Advantage of Using Zernikes to Represent
the Wavefront
……
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Strehl Ratio
diffraction-limited PSF
Hdl
Heye
actual PSF
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Modulation Transfer Function
0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9
1
0 50 100 150 spatial frequency (c/deg)
cont
rast
Area under the MTF
20/20 20/10
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Retinal Sampling
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Projected Image Sampled Image
5 arc minutes 20/20 letter
Sampling by Foveal Cones
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5 arc minutes 20/5 letter
Projected Image Sampled Image
Sampling by Foveal Cones
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Nyquist Sampling Theorem
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I
0
1
I
0
1
nearly 100% transmitted
Photoreceptor Sampling >> Spatial Frequency
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I
0
1
I
0
1
nearly 100% transmitted
Photoreceptor Sampling = 2 x Spatial Frequency
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I
0
1
I
0
1
nothing transmitted
Photoreceptor Sampling = Spatial Frequency
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I
0
1
I
0
1
alias transmitted
Photoreceptor Sampling < Spatial Frequency
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Nyquist theorem: The maximum spatial frequency that can be detected is equal to ½ of the sampling frequency.
foveal cone spacing ~ 120 samples/deg
maximum spatial frequency: 60 cycles/deg (20/10 or 6/3 acuity)
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0
0.5
1
0 50 100 150 200 250 300
1 mm 2 mm 4 mm 6 mm 8 mm
mod
ulat
ion
tran
sfer
spatial frequency (c/deg)
cut-off frequency
Rule of thumb: cutoff frequency increases by ~30 c/d for each mm increase in pupil size
Nyquist limit
MTF: Cutoff Frequency