Course title
フォトニクス   [Photonics]
Course category technology speciality courses,ets.  Requirement   Credit 2 
Department   Year 34  Semester Spring 
Course type Spring  Course code 023608
Instructor(s)
室尾 和之   [MUROO Kazuyuki]
Facility affiliation Faculty of Engineering Office   Email address

Course description
Modern photonics has been developed based on "Optics" and "Laser science" in recent years, which are now applied to wide range of science and engineering, such as optical science, optical telecommunication, optical recording, and semiconductor processing. This lecture is mainly focused on "Geometrical optics" and "Wave optics", the former of which provides intuitive understanding of light based on the concept RAY, and the latter provides quantitative understanding of light based on the concept WAVE.
Expected Learning
The aim of this course is to understand physical properties of light based on "Geometrical optics" and "Wave optics".
Course schedule
Week 1: Geometrical optics: Law of reflection, law of refraction (Snell's law) and Fermat principle
Week 2: Geometrical optics: Paraxial (Gaussian) optics, lens, ray diagram
Week 3: Geometrical optics: Law of refraction and lensmaker's equation
Week 4: Geometrical optics: Properties of a lens 1, concave and convex lenses, focal length, real and virtual images
Week 5: Geometrical optics: Properties of a lens 2, aperture, 1/F number, depth of focus, depth of field, and Seidel aberrations
Week 6: Wave optics: Electromagnetic wave, Maxwell's equations, wave equation, and plane wave
Week 7: Wave optics: Energy density and energy flux density (Poynting vector)
Week 8: Wave optics: Law of reflection and law of refraction based on wave optics (Huygens-Fresnel principle)
Week 9: Wave optics: Reflectance and transmittance, P-wave and S-wave
Week 10: Wave optics: Single-slit diffraction, Fraunhofer Diffraction
Week 11: Wave optics: Circular aperture diffraction, Airy disk, Rayleigh criterion
Week 12: Wave optics: Multi-slit diffraction, grating
Week 13: Wave optics: Two-beam interference, Young double slit, Michelson interferometer, Mach-Zehnder interferometer, Sagnac interferomete
Week 14: Wave optics: Multi-beam interferometer, Fabry-Perot interferometer
Week 15: Final examination
Prerequisites
Electrogmatnetism, Oscillation and wave, Quantum electronics
Required Text(s) and Materials
References
Hecht "Optics"
Assessment/Grading
report 25%, final exam 75%
Message from instructor(s)
Course keywords
Geometrical optics, Wave optics, lens, light wave, interference, diffraction
Office hours
Remarks 1
Remarks 2
Related URL
Lecture Language
Japanese
Language Subject
Last update
6/12/2018 9:43:45 AM