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Optics (M-I-T)

(23 Lectures Available)

S# Lecture Course Institute Instructor Discipline
1
  • Lecture 11: The Hamiltonian formulation; introduction to waves (M-I-T)
Optics (M-I-T) MIT Prof. George Barbastathis, Prof. Colin Sheppard Applied Sciences
2
  • Lecture 12: The wave equation; phasor representation; 3D waves (M-I-T)
Optics (M-I-T) MIT Prof. George Barbastathis, Prof. Colin Sheppard Applied Sciences
3
  • Lecture 13: 3D wave phenomena; introduction to electromagnetics (M-I-T)
Optics (M-I-T) MIT Prof. George Barbastathis, Prof. Colin Sheppard Applied Sciences
4
  • Lecture 14: Maxwell's equations; polarization; Poynting's vector (M-I-T)
Optics (M-I-T) MIT Prof. George Barbastathis, Prof. Colin Sheppard Applied Sciences
5
  • Lecture 15: Huygens principle; interferometers; Fresnel diffraction (M-I-T)
Optics (M-I-T) MIT Prof. George Barbastathis, Prof. Colin Sheppard Applied Sciences
6
  • Lecture 16: Gratings: amplitude and phase, sinusoidal and binary (M-I-T)
Optics (M-I-T) MIT Prof. George Barbastathis, Prof. Colin Sheppard Applied Sciences
7
  • Lecture 17: Fraunhofer diffraction; Fourier transforms and theorems (M-I-T)
Optics (M-I-T) MIT Prof. George Barbastathis, Prof. Colin Sheppard Applied Sciences
8
  • Lecture 18: Spatial filtering; lens transfer functions & transforms (M-I-T)
Optics (M-I-T) MIT Prof. George Barbastathis, Prof. Colin Sheppard Applied Sciences
9
  • Lecture 19: The 4F system; binary amplitude & pupil masks (M-I-T)
Optics (M-I-T) MIT Prof. George Barbastathis, Prof. Colin Sheppard Applied Sciences
10
  • Lecture 1: Course organization; introduction to optics (M-I-T)
Optics (M-I-T) MIT Prof. George Barbastathis, Prof. Colin Sheppard Applied Sciences
11
  • Lecture 20: Shift invariance; pupil engineering; the Talbot effect (M-I-T)
Optics (M-I-T) MIT Prof. George Barbastathis, Prof. Colin Sheppard Applied Sciences
12
  • Lecture 22: Coherent and incoherent imaging (M-I-T)
Optics (M-I-T) MIT Prof. George Barbastathis, Prof. Colin Sheppard Applied Sciences
13
  • Lecture 23: Imaging with a single lens (M-I-T)
Optics (M-I-T) MIT Prof. George Barbastathis, Prof. Colin Sheppard Applied Sciences
14
  • Lecture 25: Resolution; defocused optical systems (M-I-T)
Optics (M-I-T) MIT Prof. George Barbastathis, Prof. Colin Sheppard Applied Sciences
15
  • Lecture 26: Depth of focus and field; polarization; wave plates (M-I-T)
Optics (M-I-T) MIT Prof. George Barbastathis, Prof. Colin Sheppard Applied Sciences
16
  • Lecture 2: Reflection and refraction; prisms, waveguides, and dispersion (M-I-T)
Optics (M-I-T) MIT Prof. George Barbastathis, Prof. Colin Sheppard Applied Sciences
17
  • Lecture 3: Focusing, imaging, and the paraxial approximation (M-I-T)
Optics (M-I-T) MIT Prof. George Barbastathis, Prof. Colin Sheppard Applied Sciences
18
  • Lecture 4: Sign conventions; thin lenses; real and virtual images (M-I-T)
Optics (M-I-T) MIT Prof. George Barbastathis, Prof. Colin Sheppard Applied Sciences
19
  • Lecture 5: Thick lenses; the composite lens; the eye (M-I-T)
Optics (M-I-T) MIT Prof. George Barbastathis, Prof. Colin Sheppard Applied Sciences
20
  • Lecture 6: Terms: apertures, stops, pupils, and windows; single-lens camera (M-I-T)
Optics (M-I-T) MIT Prof. George Barbastathis, Prof. Colin Sheppard Applied Sciences
21
  • Lecture 7: Basics of mirrors, magnifiers, and microscopes (M-I-T)
Optics (M-I-T) MIT Prof. George Barbastathis, Prof. Colin Sheppard Applied Sciences
22
  • Lecture 8: Telescopes; aberrations: chromatic, spherical, and coma (M-I-T)
Optics (M-I-T) MIT Prof. George Barbastathis, Prof. Colin Sheppard Applied Sciences
23
  • Lecture 9: More aberrations; optical design; GRadient INdex (GRIN) (M-I-T)
Optics (M-I-T) MIT Prof. George Barbastathis, Prof. Colin Sheppard Applied Sciences