1. Refractive index, optical path, Fermat's principle, law of reflection and refraction, total reflection, dispersion of the refractive index
2. Mirrors, parabolic and elliptical mirrors, reflecting prisms, spherical mirror imaging, light waveguides
3. Refraction by a spherical interface, lenses, principle points of the optical system, imaging equations, optical power
4. Aberrations of optical systems, their description and compensation, free-form optics
5. Matrix ray optics, ABCD rule
6. Optical instruments, eye, camera, telescopic systems, collimation systems
7. Optical microscopic systems, real and conoscopic image formation, resolution and contrast enhancement
8. Principle and use of laser, optical resonator, Gaussian beam
9. Illumination systems, engineering appications
10. Adaptive optics, wavefront measurement and correction
11. Diffraction, scalar diffraction theory
12. Fresnel and Franhoffer approximation, properties of the optical Fourier transform
13. Diffraction at fundamental apertures, application of diffraction phenomena
2. Mirrors, parabolic and elliptical mirrors, reflecting prisms, spherical mirror imaging, light waveguides
3. Refraction by a spherical interface, lenses, principle points of the optical system, imaging equations, optical power
4. Aberrations of optical systems, their description and compensation, free-form optics
5. Matrix ray optics, ABCD rule
6. Optical instruments, eye, camera, telescopic systems, collimation systems
7. Optical microscopic systems, real and conoscopic image formation, resolution and contrast enhancement
8. Principle and use of laser, optical resonator, Gaussian beam
9. Illumination systems, engineering appications
10. Adaptive optics, wavefront measurement and correction
11. Diffraction, scalar diffraction theory
12. Fresnel and Franhoffer approximation, properties of the optical Fourier transform
13. Diffraction at fundamental apertures, application of diffraction phenomena