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Interaction and migration of atoms on the surface. Growth types and phases of thin film growth. Steady stae theory of nucleation of thin films. Kinetics versus termodynamics. Rate equations of thin film growth. Critical island diameter for growth of the next layer. 2D-3D transition. Computer simulations of thin film growth. Growth on atomic terraces. Epitaxial growth - Stranski-Krastanov growth. Properties of thin film structures - electrical, magnetic, optical and mechanical. Application of thin films -examples. Low-dimensional structures.
Last update: T_KEVF (07.05.2005)
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Získání zápočtu je podmínkou pro konání zkoušky. Udělení zápočtu je podmíněno absolvováním dvou praktických úloh a vypracováním protokolu k nim. Povaha kontroly studia předmětu vylučuje opakování této kontroly, zápočet se tedy opakovat nedá. Last update: Pavlů Jiří, doc. RNDr., Ph.D. (03.06.2020)
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Eckertová L.: Physics of Thin Films, Plenum Press - SNTL, New York - Praha, 1986. Venables J. A.: Surfaces and Thin Film Processes, Cambridge Univ. Press Cambridge 2000. Michely T., Krug. J.: Islands, Mounds and Atoms, Springer-Verlag Berlin Heidelberg 2004. Last update: T_KEVF (07.05.2005)
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The lecture is conducted on-line in the winter semester 2020. For more information, see https://physics.mff.cuni.cz/kfpp/rozvrh.html Last update: Roučka Štěpán, doc. RNDr., Ph.D. (06.10.2020)
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Zkouška probíhá ústní formou. Požadavky odpovídají sylabu předmětu v rozsahu, který byl prezentován na přednášce. Last update: Sobotík Pavel, doc. RNDr., CSc. (06.10.2017)
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1. Basic processes at deposition
Adsorption. Adatom movement in a surface potential- surface diffusion. Interaction of adatoms and clusters. The role of steps, defects and dopants. 2. Nucleation and thin film growth theory Modes and phases of thin film growth. Steady state nucleation theory. Atomistic model. Kinetic equation of the growth. Thin film growth simulations. Kinetic versus thermodynamic. 3. Influence of parameters on the thin film growth Amorphous, polycrystallic a epitaxial films. The role of the stress - Stranski-Krastanov growth. The role of the kinetic (2Dx3D growth, critical island radius, steps, Ehrlich-Schvoebel barrier, step-flow growth). 4. Properties of thin films Electrical, mechanical, magnetic and optical properties. Thin film applications. 5. Nanostructures Properties of low-dimensional systems. Preparation of nanostructures. Selforganized growth of nanostructures. Last update: T_KEVF (13.05.2005)
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