3. Geometrical Optics - PowerPoint PPT Presentation

1 / 51
About This Presentation
Title:

3. Geometrical Optics

Description:

... Astigmatism Astigmatism (Cont ... Monochromatic aberrations Spherical Aberration Coma Astigmatism Curvature of field Distortion Chromatic ... – PowerPoint PPT presentation

Number of Views:172
Avg rating:3.0/5.0
Slides: 52
Provided by: facultyP1
Category:

less

Transcript and Presenter's Notes

Title: 3. Geometrical Optics


1
3. Geometrical Optics
2
  • Geometric opticsprocess of light ray through
    lenses and mirrors to determine the location and
    size of the image from a given object .

Reflection and Mirror
3
Image Formation by Reflection
4
Application of Double Reflection-Periscope
5
DIY Periscope
6
DIY Periscope (Cont)
7
  • Law of reflection (Snells law)

8
Types of Lenses
9
Ray Tracing through Thin Lenses
10
Image Formation by thin Lenses
11
ABCD Matrix
12
ABCD Matrix (Cont)
13
ABCD Matrix (Cont)
14
ABCD Matrix (Cont)
15
ABCD Matrix (Cont)
16
ABCD Matrix (Cont)
17
ABCD Matrix (Cont)
18
(No Transcript)
19
(No Transcript)
20
Aberrations of Lenses
  • Primary Aberration ? image deviate from the
    original picture/the first-order approximation
  • Monochromatic aberrations
  • ? Spherical Aberration
  • ? Coma
  • ? Astigmatism
  • ? Curvature of field
  • ? Distortion
  • Chromatic aberration

21
General Method of Reducing Aberration in Optical
Systems-Multiple Lenses
United States Patent 6844972
22
General Method of Reducing Aberration in Optical
Systems-Multiple Lenses (Cont)
United States Patent 6995908
23
Chromatic Aberration
The focal lengths of lights with distinct
wavelengths are different.
24
Solution of Chromatic Aberration-Using Doublet,
Triplet, or Diffractive Lens
25
Spherical Aberration (SA)
26
Spherical Aberration for Different Lenses
(a)  Simple biconvex lens (b)  Best-form
lens (c)  Two lenses (d)  Aspheric, almost
plano-convex lens
27
Solutions of Spherical Aberration-Using
Aspherical Lens or Stop
28
Coma
29
Coma (Cont)
(a) Negative coma (b) Postive coma
30
Astigmatism
31
Astigmatism (Cont)
32
Solutions of Astigmatism-Using Multiple Lenses
33
Curvature of field
34
Solutions of Curvature of field-Using Multiple
Lenses
35
Distortion
Picture taken by a wide-angle camera in front of
graph paper with square grids
36
Solution of Distortion-Using Multiple Lenses
37
Nearsightedness (Myopia) and Farsightedness
(Hyperopia)
38
Image Formation ? Camera
39
Camera
F-number
Eg. 50 mm camera lens, aperture stop 6.25mm
F-number 8 (f/8)
Exposure
E energy collected by camera lens B brightness
of object A area of aperture d diameter of
aperture stop
40
Camera Lenses
  • Wide-angle Lenses-the Aviogon and the Zeiss
    Orthometer lenses
  • Standard Lenses-the Tessar and the Biotar lenses
  • Lens of reducing the 3rd-order aberration-the
    Cooke triplet lens

41
Depth of Field (DOF)
  • The distance between the nearest and farthest
    objects in a scene that appear acceptably sharp
    in an image.
  • In cinematography, a large DOF is called deep
    focus, and a small DOF is often called shallow
    focus.
  • For a given F-number, increasing the
    magnification decreases the DOF decreasing
    magnification increases DOF.
  • For a given subject magnification, increasing the
    F-number increases the DOF decreasing F-number
    decreases DOF.

42
Numerical Aperture (NA)
  • The numerical aperture of an optical system is a
    dimensionless number that characterizes the range
    of angles over which the system can accept or
    emit light.
  • Generally,
  • For a multi-mode optical fiber,

43
Telescope
44
  • Astronomical (Keplerian) Telescope

Magnification (magnifying power)
General Keplerian telescope dfofe
? angle subtended at input end in front of
objective ? angle subtended at output end
behind eyepiece
(inverted image)
45
  • Galileo Telescope

General Galileo telescope dfo-fe
46
Terrestrial Telescope
All images are erecting
47
Optical Microscope
48
  • Microscope Theory

Objective
49
  • Microscope Theory (Cont)

Eyepiece
(normal reading distance)
50
  • Simple Projection System

51
Fresnel Lens and Plates
  • Radius of the concentric circular rn
    (n?)22fn? ½ , n0, 1, 2,.
  • Sapce between two adjacent circular
  • zone ?rn rn1?rn

focusing point (in phase)
Write a Comment
User Comments (0)
About PowerShow.com