Nonlinear Optics
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Course Information
Professor: Dr. Chip Durfee
Office: Meyer Hall 330
Meeting Times and Location: Meyer Hall 357: Tuesday, Thursday 11:00-12:15
Announcements
12 Jan: Homework 1 is posted below. Please read the ground rules and let me know what your groups are. Notes from first lecture posted. Please register for the Forum area if you aren't already.
9 Jan: Welcome to the new Wiki page for Nonlinear Optics! The syllabus is posted below.
Office hours
Monday 2-5pm. two other hours TBD: let me know your preferences soon...
Course Forum, Supplementary Readings, Homework Solutions
open to class members only (auditors ok). If you aren't registered for the forum, follow the directions to register, email me your user name, and I'll put you on the list. Protected Documents for Nonlinear Optics
You may want to open this in a new tab or browser window to keep access to the wiki page.
Course Material
Syllabus and Reading List
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Homework Assignments
Ground rules: work in groups of 3. Email me to let me know what the groups are. If you would like some help finding partners, let me know. Turn in one homework set per group. Everyone in the group gets the same grade. What you turn in must be neat, and written with an appreciation that an actual person (me) has to read and understand it. Midterms and projects will be solo, so you will each need to know the material. If anyone has any concerns about this system, please let me know.
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Lecture Notes
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Mathematica Demos
These aren't actually pdf's. Do a "save link as" to save these to your computer, then open with Mathematica.
These downloads require Adobe Acrobat Reader
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Links to literature in nonlinear optics
click edit at the right to add references. Include a short description, make a new category if it makes sense. Links only - don't upload actual pdf's please. Put your last name and posting date along with the citation.
Development of the theory, historical
Midwinter Br. J. Applied Phys v16 p1135 (1965) "The effects of phase matching method and of uniaxial crystal symmetry on the polar distribution of second-order non-linear optical polarization" Derivation of the variation of dEff in nonlinear crystals with beam direction. (Durfee 1/12/2007) Midwinter (1965)
Course Links
JavaOptics: a nice collection of optics-related demonstrations