Wolfgang Tittel - Teaching

1. Wolfgang Tittel, Winter 2012
   PHYS 575 - Optics
   
   Geometrical Optics: lenses, mirrors, and other basic optical components. Matrix Methods. Physical Optics: Interference, Diffraction, and Polarization. Fourier Optics. Modern Optics: Lasers and Fibre Optics.\r\nThis course may not be repeated for credit.
   
   The course requirements are Physics 325, 457, Applied Mathematics 433.
   Course website.
   


2. Wolfgang Tittel, Fall 2011
   PHYS 697 - Topics in Contemporary Physics
   
   Quantum Cryptography
   Course website.
   


3. Wolfgang Tittel, Winter 2011
   PHYS 575 - Optics
   
   Geometrical Optics: lenses, mirrors, and other basic optical components. Matrix Methods. Physical Optics: Interference, Diffraction, and Polarization. Fourier Optics. Modern Optics: Lasers and Fibre Optics. This course may not be repeated for credit.
   
   The course requirements are Physics 325, 457, Applied Mathematics 433.
   Course website.
   


4. Wolfgang Tittel, Winter 2010
   PHYS 471 - Optics
   
   This lecture aims at providing the requisite knowledge for understanding optical phenomena occurring in nature, optical instruments for measurements, imaging and communication, and the role of light in the development of quantum physics.
   
   The course requirements are Modern Physics (PHYS 323), Electromagnetic Theory II (PHYS 455), and Applied Mathematics 413.
   Course website.
   


5. Wolfgang Tittel, Winter 2009
   PHYS 471 - Optics
   
   This lecture aims at providing the requisite knowledge for understanding optical phenomena occurring in nature, optical instruments for measurements, imaging and communication, and the role of light in the development of quantum physics.
   
   The course requirements are Modern Physics (PHYS 323), Electromagnetic Theory II (PHYS 455), and Applied Mathematics 413.
   Course website.
   


6. Wolfgang Tittel, Fall 2009
   PHYS 369 - Acoustics, Optics and Radiation (for students in Engineering)
   
   Wave motion as applied to acoustics, geometric and physical optics, and radiant energy transfer. Traditional and modern applications.
   
   Applied Mathematics 217, 219, Physics 259
   Course website.
   


7. Wolfgang Tittel, Fall 2007
   PHYS 697 - Quantum Cryptography
   
   Introduction to classical and quantum information theory with focus on channel capacity. Quantum key distribution, security proofs, technological issues and practical realizations.
   
   These topics require knowledge of linear algebra..