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.
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.
onlie lecture asynchron; audio-commented PowerPoint files uploaded each week in TUWEL Discussion time during lecture time.
General Introduction of the lecture:
Tuesday, March 7th, 2023, 13:00-14:00
FH HS6
(Mössbauer-Spektroskopie Magn.Relaxationsprozesse)
oral examination