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Laser Physics and Modern Optics
To understand the principles of construction and operation of laser technology. To be familiar with key applications of lasers in non-linear optics, spectroscopy and optical metrology.
Students will:Have acquired an understanding of the materials physics that underpins laser development.Have mastered the physics required to understand laser operation and the output characteristics of different types of lasers including pulsed and CW lasers.Be able to design stable optical cavitiesBe familiar with applications of lasers in spectroscopy and optics
Subject to approval of the Head of Department.
PHYS323
Jon-Paul Wells
Homework 40%Exam 60%
A. Siegman; Lasers ;
A.M. Fox; Optical Properties of Solids ;
P.N. Butcher and D. Cotter; Elements of Nonlinear Optics ;
R. Loudon; The Quantum Theory of Light ;
A. Yariv; Quantum Electronics ;
F. Zernike; Applied Nonlinear Optics ;
J.T. Verdeyen; Laser Electronics 3e ;
O.Svelto; Principles of Lasers ;
P.W. Milonni and J.H. Eberly; Lasers ;
W. Koechner; Solid State Laser Engineering ;
W.T. Silvfast; Laser Fundamentals ;
Electronic copies of the detailed lecture notes will be available on the Learn system after week two: http://learn.canterbury.ac.nz/Late work is not in general acceptable without a medical certificate.Please consult the document General Information for Physics and Astronomy Students (57KB)
Please consult the document General Information for Physics and Astronomy Students (57KB)
Domestic fee $993.00
International Postgraduate fees
* All fees are inclusive of NZ GST or any equivalent overseas tax, and do not include any programme level discount or additional course-related expenses.
For further information see School of Physical & Chemical Sciences .