- Lecturer
- Vacha Martin
- Place
- Mon3-4(蜊8-102) Fri3-4(蜊8-102)
- Credits
- Lecture2 Exercise0 Experiment0
- Code
- 5812
- Syllabus updated
- 2011/3/23
- Lecture notes updated
- 2011/3/23
- Semester
- Spring Semester / Recommended semester:5
Outline of lecture
I縲譛画ゥ滓攝譁吶ョ蜈牙ュヲ迚ゥ諤ァ繧蜈画ゥ溯ス諤ァ繧堤炊隗」縺吶k縺溘a縺ォ蜈牙ュヲ縺ョ蝓コ遉弱r蟄ヲ縺カ縲りャ帷セゥ縺ッ蜈ィ縺ヲ闍ア隱槭〒陦後≧縲
縲The aim is to learn basics of optics to understand optical properties and optical functions of organic materials. The lecture will be given in English
II縲蜈峨ョ蝓コ譛ャ逧諤ァ雉ェシ帛峨ョ蜿榊ーシ梧淵荵アシ悟ア域釜シ帛¥蜈会シ帛ケイ貂会シ悟屓譫;繝ャ繝シ繧カ縲
縲Character of light; reflection, scattering, refraction; polarized light; interference; diffraction; laser.
Purpose of lecture
The aim is to study basics of optics to understand optical properties and optical functions of organic materials and learn about optical phenomena used in organic photonic devices.
縺ェ縺翫∵悽隰帷セゥ縺ッ闍ア隱槭〒陦後o繧後k縲
Plan of lecture
1.Introduction: Optics in organic material research ? motivation; organization of the lecture; history of optics
2.Character of light: Light as electromagnetic waves; electric and magnetic fields; Maxwell窶冱 equations, wave equation; energy of light: the Poynting vector, pressure of light; light as particles
3.Propagation of light: Dispersion, Newton窶冱 observation; microscopic theory of dispersion: Lorentz窶冱 oscillator model; complex refractive index; dispersion in dense media: Clausius-Mossotti relation; non-resonant interaction of light with matter: scattering, refraction, reflection; Fresnel equations, reflectance, transmittance; basics of geometrical optics; applications of refraction and reflection: waveguides and optical fibers
4.Polarization of light: Linear, circular, elliptical polarization; principle of polarizers: anisotropy of optical phenomena; mathematical description of polarization: Jones vector and Jones matrix; phenomena related to polarization: optical activity, Faraday effect; electro-optical effects (Kerr effect)
5.Interference of light: General equation and conditions for interference; coherent light characteristics: coherence length and time; applications of interference: interferometers, dielectric thin films, interference filters
6.Diffraction of light: Basic physical principles of diffraction; diffraction on a single slit, multiple-slit diffraction, diffraction grating, principle of monochromator
7.Principle of laser: Spontaneous and stimulated emission, Einstein coefficients; population inversion, three level system; light amplification, gain, feedback in optical resonator; character of laser light, types of lasers
Textbook and reference
螟ァ豢・蜈荳 縲檎樟莉」蜈臥ァ大ュヲ縲搾シ茨シ托シ会シ域悃蛟画嶌蠎暦シ E. Hecht: Optics (Addison Wesley)(譌・譛ャ隱樒沿繧ゅ≠繧具シ
Evaluation
蟆上ユ繧ケ繝医♀繧医ウ譛滓忰隧ヲ鬨薙↓繧医k
Comments from lecturer
隰帷セゥ縺ョ蜀螳ケ繧定ャ帷セゥ荳ュ縺ァ逅隗」縺励∝縺九i縺ェ縺縺ィ縺薙m縺ァ逶エ縺占ウェ蝠上r譛溷セ縺吶k
