Contact
Info, Time & Place:
Class
Location: Room
540-108
Time: Mon/Wed
Instructor: Professor Lambertus
Hesselink
Room:
e-mail: Bert@kaos.stanford.edu
phone: (650)723-4850
Office hours: Mon/Wed
Administrator: Lilyan Sequeira
phone: (650)723-2166
Teaching Assistant: Yuzuru
Takashima
e-mail: yuzuru@kaos.stanford.edu
phone: 5-3301
Office hours: TBD
(Depending on class size and student approval, an accelerated schedule
will be followed to deliver the class lectures so that more time is available
for the final lens design project)—see separate lecture schedule.
Topics
to be covered:
See attached schedule
Grading:
20% homework; 80% Project
Recommended Texts:
"Lens Design" by Milton
Laikin published by Marcel Dekker, Inc., 1991
"Modern Optical Engineering"
by Warren J. Smith, published by McGraw Hill, 1990
"Fundamentals of Optics," by
Jenkins & White, McGraw Hill, 4th Edition, 1965
OBJECTIVE:
To introduce the basic concepts of lens design in
class through lectures and hands-on experience with a computer ray trace
program.
The students will gain experience with modern lens
design programs by carrying out a complete design of an optical device through
a class project.
Approach:
- Theoretical concepts taught in early part of class
using accelerated schedule
- Class project:
-
preliminary design presentation (40%)
-
90% design presentation
-
final presentation
By unanimous consent, most lectures will be taught
during the first three weeks of the term, followed by bi-weekly design meets.
Topic # Description
1 Lens aberration
Third order aberration
Spherical aberration
Single lens
2 Coma
Aplanatic surfaces
Petzval Sum
Astigmatism
3 Curvature of field
Distortion
4 Chromatic aberration
Code V, lens design program
5 Image evaluation
Wavefront analysis
Aberration tolerances
Aberration correction and
residuals
6 Ray intercept curves
7 Design process
Novel materials, gradient index
Components, prisms,
elements of revolution
8 Diffraction gratings
Holographic optical
elements
Optical instruments
9 Case Study
10 Project Presentation
Announcements
Mar. 18, 2004
Welcome to EE347 web site! , HO#1 & #2 Uploaded
Two handouts are posted on the official website, http://eeclass.stanford.edu/ee347/
1. Additional note for lecture 1
2. Modern Optics, by Hesselink
Handouts
#1
3/18/04 Course
Syllabus
#2
3/18/04 Lecture
Date Time Location
#3- 3/31/04
http://eeclass.stanford.edu/ee347/
Homework
Homework |
Solutions |
Help |
|
|
|
Presentations
References / Links
Optical Glass catalog
1) OHARA Glass
Corp. main page
http://www.oharacorp.com/
Glass catalog (Web version,
only commonly used optical glasses are listed)
http://www.oharacorp.com/optical_glass/xref.html
Glass catalog (MS
Exel version, 992KB)
Glass_data
(Exel 2000 format,
contains all data including optical, chemical, mechanical and thermal
properties)
2) Shott Glass
http://www.schott.com/english/
Glass_data
(pdf file, 330KB)
3) Sumita Optical
Glass
For glass molding
http://www.sumita-opt.co.jp/index.html
K-PSFn1
K-PSFn3
PG375
Sumita Glass
General Data
http://www.sumita-opt.co.jp/en/optical.htm
Glass
catalog
Grating & CCD Catalogs & References
1) Jobin Yvon
(Gratings, CCDs, Detectors)
http://www.isainc.com/default_ie.htm
2) The optics of
spectroscopy (Reference for gratings and spectrometers)
http://www.isainc.com/OSD/OOS/OOS.HTM
http://www.isainc.com/OSD/Literature/Literature.htm
3) Shimadzu
(Gratings, Spectrometers)
http://www.shimadzu.com/
4) Hamamatsu
Photonics (CCD)
http://www.hamamatsu.com/
Fibers & Image Guides
Sumitomo Electric
http://www.sumitomoelectricusa.com/scripts/products/ofig/image.cfm
GRIN Lens
NSG
CodeV (Optical design software)
1) Optical Research
Associates
www.opticalres.com
2) Univ. Dayton
http://www.engr.udayton.edu/faculty/jloomis/eop501/codev/landscape.html
http://www.engr.udayton.edu/faculty/jloomis/eop601/codev/auto/cv_auto1.html
EE268 Introduction to Modern Optics
1) Modern Optics (EE268 Course
text, posted on the official website)
Modern Optics, Ch 1
(pdf)
Modern Optics, Ch 2
(pdf)
Modern Optics, Ch 3
(pdf)
2)
Review
notes are available. Please contact to TA.