Methods for the study of solid-state materials and surfaces - NFPL077

• Anglický název: Methods for the study of solid-state materials and surfaces
• Zajišťuje: Katedra fyziky kondenzovaných látek (32-KFKL)
• Fakulta: Matematicko-fyzikální fakulta
• Platnost: od 2022
• Semestr: oba
• E-Kredity: 3
• Rozsah, examinace: 2/0, Zk [HT]
• Počet míst: neomezen
• Minimální obsazenost: neomezen
• 4EU+: ne
• Virtuální mobilita / počet míst pro virtuální mobilitu: ne
• Stav předmětu: vyučován
• Jazyk výuky: angličtina
• Způsob výuky: prezenční
• Způsob výuky: prezenční
• Poznámka: předmět lze zapsat v ZS i LS
• Garant: doc. RNDr. Ing. Martin Kalbáč, Ph.D., DSc.

Anotace

Poslední úprava: Mgr. Kateřina Mikšová (02.02.2022)

The course is focused on key experimental techniques for studying electronic structure and surfaces of solid materials. Relevant theoretical models are also discussed. First the concept of electron theory in condensed matter and fundamentals of electromagnetic field - matter interaction are introduced. Next, important classes of experimental methods are discussed: photoelectron spectroscopies, scanning probe microscopies, surface diffraction methods, angle-resolved methods, and spin selective methods. The course is completed with a series of examples on real materials. (Alternative to MC240P92

Podmínky zakončení předmětu

Poslední úprava: Mgr. Kateřina Mikšová (12.05.2022)

The condition for completing the course is successfully passing the exam according to the requirements

Literatura

Poslední úprava: Mgr. Kateřina Mikšová (02.02.2022)

A.V. Zotov, K. Oura, M. Katayama, and V.G. Lifshits, Surface Science: An Introduction, Springer 2003.

H. Ibach, Physics of Surfaces and Interfaces, pringer Science & Business Media, 2006.

B. Voigtländer, Scanning Probe Microscopy: Atomic Force Microscopy and Scanning Tunneling Microscopy, Springer Berlin Heidelberg, 2015.

S. Hufner, Photoelectron Spectroscopy: Principles and Applications, Springer-Verlag, 1995.

S. Suga and A. Sekiyama, Photoelectron Spectroscopy: Bulk and Surface Electronic Structures, Springer Berlin Heidelberg, 2013.

N. Ashcroft, N. Mermin, Solid State Physics, Academic Press, Jun 17, 1991.

Ch. Kittel, Introduction to solid state physics, John Willey & Sons, Inc., 2005.

Relevant research articles.

Požadavky ke zkoušce

Poslední úprava: Mgr. Kateřina Mikšová (03.02.2022)

Oral exam on the topics discussed in the course (as defined in the sylabus).

Sylabus

Poslední úprava: Mgr. Kateřina Mikšová (07.02.2022)

Basic concept of electron theory in solids (reciprocal space, Bloch theorem, band structure, Fermi surface)

Interaction of electromagnetic field with solids (absorption, diffraction, Fermi golden rule)

Photoelectron Spectroscopies and Microscopies (X-ray and Ultraviolet Photoemission Spectroscopy, PE Electron Microscopy)

Scanning Probe Microscopy (Atomic Force Microscopy, Magnetic Force Microscopy, Scannin Tunelling Microscopy, Kelvin Probe Microscopy, Piezoresponse Force Microscopy)

Surface diffraction techniques (Low Energy Electron Diffraction, Reflection High-Energy Electron Diffraction)

Angle-resolved experiments (Angle Resolved PES, de Haas van Alphenův jev, cyklotronová rezonance)

Spin selective methods (Spin Resolved AR PES, X-Magnetic Circular Dichroism)

Characterization of selected materials (2D crystals - graphene, nanoparticles, nanoporous materials, magnetics, semiconductors, nanostructured surfaces)