138.048 Nuclear Magnetic Methods (Mössbauer Spectroscopy)
This course is in all assigned curricula part of the STEOP.
This course is in at least 1 assigned curriculum part of the STEOP.

2020S, VO, 2.0h, 3.0EC

TUWEL course

Properties

Semester hours: 2.0
Credits: 3.0
Type: VO Lecture

Learning outcomes

After successful completion of the course, students are able to comprehend the materials presented in the lecture and to draw conclusions from them, as well as to actively communicate the contents presented during the lecture.

Subject of course

1. Introduction, 2. Mössbauer effect, 3. Velocity dependent count rate, 4. Experimental details, 5. Mössbauer isotopes, 6. Electrical quadrupole splitting, 7. Magnetic hyperfine splitting, 8. Combination of magnetic and electrostatic exchange interaction, 9. Influence of temperature and direction of hyperfine field, 10. Isomer shift, 11. Quadratic Doppler effect, 12. Intensity ratio of hypefine transitions, 13. Nuclear quadrupole moment and electrical field gradient in 57Fe, 14. Relaxation mechanisms.

Teaching methods

Frontal lecture

Mode of examination

Oral

Additional information

(Mössbauer-Spektroskopie Magn.Relaxationsprozesse)

Lecturers

Reissner, Michael
Steiner, Walter

Institute

E138 Institute of Solid State Physics

Course dates

Day	Time	Date	Location	Description
Tue	12:00 - 13:00	03.03.2020	FH Hörsaal 6 - TPH	Vorbesprechung: STEINER

Examination modalities

Certificate

Course registration

Registration modalities

Interessenten bitte bei Vortragendem nach der Vorbesprechung melden!

Curricula

Study Code	Obligation	Semester	Precon.	Info
066 460 Physical Energy and Measurement Engineering	Mandatory elective
066 461 Technical Physics	Mandatory elective
066 461 Technical Physics	Mandatory elective

Literature

Lecture notes for this course are available. in der Vorlesung

Miscellaneous

Course homepage

Language

German