Technische Universität Ilmenau

Laser Physics - Modultafeln of TU Ilmenau

The Modultafeln have a pure informational character. The legally binding information can be found in the corresponding Studienplan and Modulhandbuch, which are served on the pages of the course offers. Please also pay attention to this legal advice (german only).
Information on the room and time of planned courses can be found in the e-calendar of events. Courses and examinations that are not listed in the e-calendar of events are planned "by appointment". A list of the events concerned can be found here: courses, examinations.

subject properties subject number 5212 - common information
subject number5212
departmentDepartment of Mathematics and Natural Sciences
ID of group2422 (Group Technical Physics I)
subject leaderProf. Dr. Stefan Krischok
languageDeutsch und Englisch
term Wintersemester
previous knowledge and experience

Fundierte Grundkenntnisse der Optik, Atomphysik und Festkörper- und Halbleiterphysik

learning outcomeDie Studenten werden in das komplexe Gebiet der Laserphysik eingeführt. Dabei erlernen sie die physikalischen und optischen Grundlagen des Lasers, die Wirkungsweise und den Aufbau der verschiedenen Lasertypen sowie deren Einsatzfelder und deren Anwendung. Sie sind in der Lage, Laser und Laserbauelemente zu analysieren und zu bewerten sowie diese in optischen und photonischen Systemen gezielt zum Einsatz zu bringen.
contentEigenschaften des Laserlichtes;
Strahlungsübergänge und Linienbreite;
Laserprinzip;
Laserresonatoren;
Ausgewählte Lasersysteme;
Beispiele für Laseranwendungen in verschiedenen Bereichen der Naturwissenschaft, Technik und Medizin;
Lasersicherheit.
media of instructionTafel, Folien, Powerpoint, experimentelle Demonstrationen
literature / references

J. Eichler, H.J. Eichler, Laser - Grundlagen, Systeme, Anwendungen, Springer, Berlin

H. Fouckhardt, Photonik, Teubner, Stuttgart

B. E. A. Saleh, M. C. Teich - Fundamentals of Photonics, John Wiley & Sons, New York

W. T. Silfvast, Laser Fundamentals, Cambridge University Press

R. S. Quimby, Photonics and Lasers - An Introduction, Wiley-Interscience

evaluation of teaching

Pflichtevaluation:

WS 2016/17 (Fach)

Freiwillige Evaluation:

Hospitation:

WS 2016/17

Details reference subject
subject nameLaser Physics
examination number
credit points4
SWS
on-campus program (h)34
self-study (h)86
Obligationobligatory elective
examoral examination performance, 30 minutes
details of the certificate
Signup details for alternative examinations
maximum number of participants
Details in major Master Optische Systemtechnik/Optronik 2017
subject nameLaser Physics
examination number2400302
credit points4
on-campus program (h)34
self-study (h)86
Obligationobligatory elective
examoral examination performance, 30 minutes
details of the certificate
Signup details for alternative examinations
maximum number of participants
Details in major Master Micro- and Nanotechnologies 2016
subject nameLaser Physics
examination number2400302
credit points4
on-campus program (h)22
self-study (h)98
Obligationobligatory elective
examoral examination performance, 30 minutes
details of the certificate
Signup details for alternative examinations
maximum number of participants
Details in major Master Optische Systemtechnik/Optronik 2014
subject nameLaser Physics
examination number2400302
credit points4
on-campus program (h)34
self-study (h)86
Obligationobligatory
examoral examination performance, 30 minutes
details of the certificate
Signup details for alternative examinations
maximum number of participants
Details in major Master Technische Physik 2013
subject nameLaser Physics
examination number2400113
credit points2
on-campus program (h)22
self-study (h)38
Obligationobligatory elective
examnone
details of the certificate
Signup details for alternative examinations
maximum number of participants