Techniques of surface science - Interactive curriculae of TU Ilmenau

The interactive curriculae provide information on the degree programmes offered by the TU Ilmenau.

Please refer to the respective study and examination rules and regulations for the legally binding curricula (Annex Curriculum).

You can find all details on planned lectures and classes in the course catalogue.

Please note that this page is no longer updated. All modules and study plans from PO version 2021 onwards (Bachelor and Master study programs) are now available on the Campus Portal.

module properties module number 9054 - common information
module number	9054
department	Department of Mathematics and Natural Sciences
ID of group	2435 (Three-Dimensional Nanostructuring)
module leader	Prof. Dr. Yong Lei
language	Deutsch
term	Wintersemester
previous knowledge and experience	Festkörperphysik I ist empfehlenswert
learning outcome	Die Studierenden erhalten einen Überblick über experimentelle Techniken der modernen Oberflächenphysik. Sie erwerben die Kompetenz, für spezifische oberflächenphysikalischen Fragestellungen die geeignete Technik zu wählen.
content	Die Vorlesung stellt moderne Techniken der Oberflächenphysik vor. Schwerpunkte bilden die Strukturbestimmung von Oberflächen, die Analyse ihrer elektronischen und magnetischen Eigenschaften, die Spektroskopie von Substratphononen und Adsorbatschwingungen sowie die Beobachtung schneller Prozesse auf der Femtosekundenzeitskala. Ein tieferer Einblick in Konzepte der Oberflächenphysik wird in der Vorlesung Oberflächenphysik des Wahlmoduls 9 vermittelt.
media of instruction and technical requirements for education and examination in case of online participation	Tafel, Computer-Präsentation Moodle
literature / references	H. Ibach, Physics of Surfaces and Interfaces (Springer, 2006) M. Prutton, Introduction to Surface Physics (Oxford, 2002) A. Zangwill, Physics at surfaces (Cambridge University Press, 1998) H. Lüth, Surfaces and interfaces of sold materials (Springer, 1995) M. Henzler, W. Göpel, Oberflächenphysik des Festkörpers (Teubner, 1994) G. Ertl, J. Küppers, Low energy electrons and surface chemistry (Verlag Chemie, 1974) D.J. O'Connor et al., Surface analysis methods in materials science (Springer, 2003) K. Oura et al., Surface science (Springer, 2003) H. Kuzmany, Solid-State Spectroscopy (Springer, 1998) D.P. Woodruff, T.A. Delchar, Modern techniques of surface science (Cambridge University Press, 1994) A. Groß, Theoretical Surface Science (Springer, 2009) F. Bechstedt, Principles of Surfaces Physics (Springer, 2003) M.C. Desjonqueres, D. Spanjaard, Concepts in surface physics (Springer, 1996) S.G. Davison, M. Steslicka, Basic Theory of Surface States (Clarendon, 1996)
evaluation of teaching

Details reference subject
module name	Techniques of surface science
examination number	2400399
credit points
SWS	2
on-campus program (h)
self-study (h)
obligation	obligatory module
exam	none
details of the certificate	mündliche Prüfungsleistung, 30 Minuten
link to Moodle course
teacher
signup details for alternative examinations
maximum number of participants

Details in degree program Master Regenerative Energietechnik 2016
module name	Techniques of surface science
examination number	2400423
credit points	3
on-campus program (h)	22
self-study (h)	68
obligation	elective module
exam	oral pass-fail certificate, 30 minutes
details of the certificate	mündliche Prüfungsleistung, 30 Minuten
link to Moodle course
signup details for alternative examinations
maximum number of participants

Details in degree program Bachelor Technische Physik 2013
module name	Techniques of surface science
examination number	2400399
credit points	3
on-campus program (h)	22
self-study (h)	68
obligation	obligatory module
exam	none
details of the certificate	mündliche Prüfungsleistung, 30 Minuten
link to Moodle course
signup details for alternative examinations
maximum number of participants