Quantum and Advanced Optics
Subject PHYC90006 (2013)
Note: This is an archived Handbook entry from 2013.
Credit Points: | 12.50 |
---|---|
Level: | 9 (Graduate/Postgraduate) |
Dates & Locations: | This subject is not offered in 2013. |
Time Commitment: | Contact Hours: 36 hours comprising 3 one-hour lectures/week Total Time Commitment: 120 hours |
Prerequisites: | Subject Study Period Commencement: Credit Points: and the following subject, or equivalent Subject Study Period Commencement: Credit Points: |
Corequisites: | None |
Recommended Background Knowledge: | None |
Non Allowed Subjects: | None |
Core Participation Requirements: |
It is University policy to take all reasonable steps to minimise the impact of disability upon academic study and reasonable steps will be made to enhance a student's participation in the University's programs. Students who feel their disability may impact upon their participation are encouraged to discuss this with the subject coordinator and the Disability Liaison Unit. |
Contact
Email: msc@physics.unimelb.edu.au
Subject Overview: |
Optics and photonics are vibrant international research areas, advancing many aspects of modern life. From the determination of the structure and function of biomolecules to the study of stars and galaxies; from high-efficiency lighting to innovative display technologies, our understanding of optics relies on fundamental underpinnings in advanced quantum mechanics and wave theory. The course includes the foundations of modern optical theory, including Fourier transforms in optics and diffraction-based imaging; non-linear optical processes such as generation of white light from femtosecond laser pulses, gigahertz optical modulators, and liquid crystal displays; light-atom interactions, the Einstein description of lasers, and optical Bloch equations; holography; quantumoptics including zero-point energy and vacuum fluctuations; quantum states of light and quantum squeezing; laser cooling of atoms, atom interferometry, and Bose-Einstein condensation. Students will develop both analytic and computational problem-solving methods, the latter using standard tools such as MATLAB. |
---|---|
Objectives: |
The objectives of this subject are to provide:
|
Assessment: |
Four assignments totalling up to 36 pages of written work (20%), spaced equally during the semester, plus one 4-hour end-of-semester written examination (80%). |
Prescribed Texts: | None |
Recommended Texts: |
Fundamentals of Photonics, 2e, BEA Saleh and MC Teich, Wiley. The quantum theory of light, 2e, R Loudon, Oxford. Introduction to Fourier Optics, JW Goodman, McGraw-Hill. Optics, 4e, E Hecht, Addison-Wesley. |
Breadth Options: | This subject is not available as a breadth subject. |
Fees Information: | Subject EFTSL, Level, Discipline & Census Date |
Generic Skills: |
At the completion of this subject, students should have gained skills in:
|
Notes: |
Students undertaking this subject will be expected to access a computer occasionally. Computational facilities will be provided within the School. |
Related Course(s): |
Master of Philosophy - Engineering Master of Science (Physics) Ph.D.- Engineering |
Related Majors/Minors/Specialisations: |
Physics |
Download PDF version.