Course Light-Matter-Interaction


Responsible: Prof. Dr. Oberheide

Course

Meets requirements of following modules(MID)

Course Organization

Version
created 2016-10-03
VID 1
valid from WS 2015/16
valid to
Course identifiers
Long name Light-Matter-Interaction
CID F07_LMW
CEID (exam identifier)

Contact hours per week (SWS)
Lecture 3
Exercise (unsplit) 1
Exercise (split)
Lab
Project
Seminar
Tutorial(voluntary)
Total contact hours
Lecture 45
Exercise (unsplit) 15
Exercise (split)
Lab
Project
Seminar
Tutorial (voluntary)
Max. capacity
Exercise (unsplit)
Exercise (split) 40
Lab
Project
Seminar

Total effort (hours): 150

Instruction language

  • German, 90%
  • English, 10%

Study Level

  • Undergraduate

Prerequisites

  • none

Textbooks, Recommended Reading

  • Carlson, G. E.: Signal and Linear System Analysis, John Wiley & Sons, Inc.
  • Girod, B.: Einführung in die Systemtheorie, Teubner Verlag
  • von Grünigen, D. Ch.: Digitale Signalverarbeitung, Fachbuchverlag Leipzig
  • Hsu, H.P.: Signals and Systems, Schaums Outlines
  • Meyer, M.: Signalverarbeitung, Verlag Vieweg
  • Ohm, J.-R.; Lüke, H. D.: Signalübertragung, Springer-Verlag
  • Oppenheim, A.V.; Wilsky, A.S.:Signals & Systems, Prentice Hall
  • Werner, M.: Signale und Systeme, Verlag Vieweg

Instructors

  • Prof. Dr. Oberheide

Supporting Scientific Staff

Transcipt Entry

Light-Matter-Interaction

Assessment

Type
wE written exam (for low number of exams: oral exam)

Total effort [hours]
wE 10

Frequency: 2/a


Course components

Lecture/Exercise

Objectives

Lerninhalte (Kenntnisse)
  • basic concepts
    • characterization of interaction processes between light and matter
    • dependence of material parameters
    • fundamentals of light detectors and sources
  • applications
    • usage of birefringent optical components
    • light absorption and scattering in life sciences
    • material processing

Acquired Skills
  • description of material's optical behaviour for given starting parameter (PFK.2, PFK.4, PFK.11)
  • determine the ideal detector material for a certain spectral range (PFK.5, PFK.11)
  • determine the ideal light source for a certain material processing or diagnostic application (PFK.5, PFK.11)

Additional Component Assessment

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