Course title:
Spectroscopic Methods in Material Science
Primary programme:
Fizikus mérnök BSc
ECTS credits:
3
Course type:
elective
Number of lectures per week:
2
Number of practices per week:
0
Number of laboratory exercises per week:
0
Further knowledge transfer methods:
-
Grading:
Examination
Special grading methods:
case studies
Semester:
5
Prerequisites:
Modern Physics
Responsible lecturer:
Dr. Sándor Lenk, associate professor, PhD
Lecturers and instructors:
Course description:
The course provides an introduction to spectroscopic measurement techniques.
The concept of spectrum, examples.
Theoretical foundation of optical emission spectroscopy, prism, diffraction slit and drid, dispersion.
Prism and diffraction grating spectrometer setup. Practical realisations.
Absorption spectroscopy. Fluorescence spectroscopy.
High resolution spectroscopy. Fabry-Perot interferometer.
Michelson interferometer and Fourier spectrometer.
Heterodyne spectrometer.
Acousto-optic spectrometer.
Laser spectroscopy, Raman spectroscopy.
Dynamic spectroscopic methods (transient absorption, emission, scattering).
Optically detected magnetic resonance methods.
X-ray photoelectron spectroscopy
Mass spectroscopy and its application areas.
Gamma and beta spectroscopy.
Reading materials:
Wolfgang Demtröder: Laser Spectroscopy 5th Edition, 2014 ISBN 978-3-642-53858-2
Nikolai Tkachenko: Optical Spectroscopy Methods and Instrumentations, 2006 ISBN 9780080451724
Joseph R. Lakowicz: Principles of Fluorescence Spectroscopy, 2006 ISBN: 978-0-387-46312-4
List of competences:
Please find the detailed list, as quoted from the Hungarian training and outcome requirements of the Physicist Engineer program, in the Hungarian version of the course description.