Booklet-ФФ-2005-EN, страница 5
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Professor Irina Yu. KovalenkoThis chair conducts teaching of English forthe undergraduate and graduate students ofPhysics.• basics of theory of oscillations and waves• general and medical acoustics.• general biology and biophysics• general medicine• general physical chemistry• information technology and statistical methods inmedicine• introduction to biophysics of nonionizing radiationF A C U L T YO FP H Y S I C S•M .V .L O M O N O S O VM O S C O WS T A T EI N I V E R S I T YS C I E N T I F I CR E S E A R C HATT H EFAC U LT YO F21P H Y S I C SDIVISION OF SOLID STATE PHYSICSCHAIR OF SOLID STATE PHYSICSHead: DrSc, Professor Alexander S. Il'yushin• physics of real crystal systemsKey research directions:• structural physics of rareearth intermetallics• quantum solid state theory• xray phasecontrast tomography• rontgenography of condensed matter• physics of structured condensed systems, including selforganization and lowdimensional structures• secondary processes in Xray optics• physics of the structured matter• structural physics of hightemperature superconductors• physics of metallic alloys• moessbauer spectroscopy in application to thenanocrystalline materials.Offered courses:• solidstate physics• structural physics of rareearth intermetallics• structural physics of allows with shape memoryeffects• synchrotron research in solidstate physics• actual problems of solidstate physics• synergetic aspects in solidstate physics.• computers in solidstate research and information technologies• diffractional and Xray structural analysisCHAIR OF SEMICONDUCTOR PHYSICS• dynamical theory of Xray scatteringHead: DrSc, Professor Vladimir S.
Dneprovsky• electron microscopy of solids and biological objectsKey research directions:• introduction to crystallgraphy and techniques ofstructural experiments• semiconductor optoelectronics• methods of Xray analysis• optical and electronic properties of semiconductors with reduced dimensionality• microscopical theory of metals and allows• physics of disordered (amorphous and microcrystalline) semiconductors• modern problems of solidstate physics• nuclear physics of solid state• phase transitions in metal allows• luminescence and cathodoluminescence of semiconductors• physics of condensed systems• theory of semiconductors.F A C U L T YO FP H Y S I C S•M .V .L O M O N O S O VM O S C O WS T A T EI N I V E R S I T YS C I E N T I F I C22R E S E A R C HOffered courses:ATT H EFAC U LT YO FP H Y S I C SOffered courses:• cathodoluminescent methods of semiconductorinvestigation• additional topics of crystal physics• computers in experimental physics of semiconductors• associating polymers• fundamentals of material science and technologyof semiconductors• computer modeling of polymer systems• introduction to condensed matter physics• electrophysical properties of dielectrics• analytical nanoscopy• autowaves in complex physicalchemical systems• crystal growth• ellipsometry of thin organic films• kinetics phenomena in semiconductors• fundamentals of crystal physics• modern problems of semiconductor physics• nonlinear optics of semiconductors and lowdimensional semiconductor structures• fundamentals of theory of disordered condensedsystems• introduction to crystal physics• introduction to dynamic theory of chaos• optical phenomena in semiconductors• photoelectrical phenomena in semiconductors• introduction to polymer science• physics of nonordered semiconductors• mathematical aspects of data processing inphysical experiment• physics of semiconductor devices• mathematical methods in polymer and crystalscience• physics of semiconductors• physics of semiconductors• methods and applications of theory of phasetransitions in polymer physics• radiation effects in semiconductors• methods of computer simulation in statisticalphysics• theory of semiconductors• modern methods of polymer synthesis• twodimensional structures and superlattices insemiconductors.• modern MonteCarlo methods for modeling ofpolymers• modern problems of polymer and crystal physics• molecular kinetics and nanomechanicsCHAIR OF POLYMER AND CRYSTALPHYSICS• nonlinear optics of crystals and polymersHead: DrSc, Professor Alexei R.
Khokhlov• optical methods of condensed matter investigation• optics of crystals and polymersKey research directions:• personal computers in physics research• atomic force microscopy of polymers and biopolymers (theory, experiment). Development of modelsand methods for computer simulation of polymers.Sequence design of copolymers with special functional properties (experiment, theory, computersimulation). Selfassembling structures inamphiphilic polymer systems.• physical acoustics of polymers and crystals• crystal growth, study of crystallization processesand physical properties.
Physical acoustics ofcrystals. Theoretical crystal physics.• physics of colloids• nonlinear dynamics and chaos. Polymerbasednonlinear dynamic systems (theory, experiment).• selforganization in polymer systems• physics of functional polymer systems. Selfassemblies in responsive polyelectrolyte gels. Microphase separation, formation of other microstructures in polymer systems. Statistical physics ofpolyelectrolytes, including DNA. Polymers withassociating groups (experiment, theory, computersimulation). Polymers at surfaces.• synthesis and study of diamond films. Lowfrequency dielectric dispersion and pyroeffect incrystals and polymers with hydrogen bonds.F A C U L T YO FP H Y S I C S•M .V .• physical methods of investigation of structure ofsubstances: small angle scattering and fluorescence spectroscopy• physical properties and structure of polymers• physics of biopolymers• physics of liquid crystals• quantum chemistry• statistical methods in chemical physics of polymers• statistical physics of macromolecules• statistical physics of polymers on surface• structural concepts in polymer science• structural electronography• structure and methods of investigation of orderedmolecular ensembles• synthesis of polymers with complex spatial architecture.L O M O N O S O VM O S C O WS T A T EI N I V E R S I T YS C I E N T I F I CR E S E A R C HATT H EFAC U LT YO F23P H Y S I C SCHAIR OF MAGNETISM• introduction to physics of magnetic phenomenaHead: DrSc, Professor Anatoly V.
Vedyayev• macromolecular magnetism and magnetism ofbiological microobjectsKey research directions:• magnetic materials• spintronics• magnetooptical spectroscopy• investigation of electron structure and magneticproperties of ferro and ferrimagnetics by magnetooptic method• magnetooptics of ferromagnetics• physics of condensed matters• investigation of nonlinear isolated magnetizationwaves dynamics and collisions in optically transparent ferromagnets• physics of magnetic phenomena• investigation of magnetic, magnetooptical, andoptical characteristics of magnetic materials andmagnetic recording media for storing information• quantum theory of solids• investigation of magnetic materials for informationrecording and nonlinear electromagnetic systems• molecular magnetism and magnetism of biologicalmicroobjects.Offered courses:• quantum models of magnetism• transport phenomena in ferromagnetic materialsand alloys.CHAIR OF LOWTEMPERATURE PHYSICSAND SUPERCONDUCTIVITYHead: DrSc, Professor Aleksander N.
VasilievKey research directions:• advanced chapters of magnetism theory.• computerized data acquisition systems in physicalexperiments and numerical methods• critical phenomena and magnetic phase transformations• electronic structure and properties of transitionmetals• cooperative quantum effects in the lowdimensional systems• perspective semiconductor materials and structures• superconductivity• nuclear resonance in lowdimensional metaloxidesystems.• experimental methods in magnetism• experimental setup of modern magnetic laboratoryF A C U L T YO FP H Y S I C S•M .V .Offered courses:• computer methods in experimental physicsL O M O N O S O VM O S C O WS T A T EI N I V E R S I T YS C I E N T I F I C24R E S E A R C HATT H EFAC U LT YO FP H Y S I C S• condensed matter physics• introduction to condensed matter physics• cooperative phenomena in solids• magnetic dielectrics and semiconductors• elastic theory and thermal properties of solids• magnetic ions in the electric crystalline field• elementary excitations in crystals• magnetic structures• highTc superconductivity• magnetism of nanosystems• introduction to lowtemperature physics• modern magnetic materials• lowtemperature phase transitions• modern problems of condensed matter physics• methods of quantum field theory in condensedmatter physics• phase transitions and renormalization group• modern problems of low temperature physics• optoelectronics• physics of lowdimensional systems• physics of ferroelectrics• physics of magnetic phenomena.
Part 1. Weakmagnetic substances• physics of magnetic phenomena. Part 2. Exchangeinteractions in spinordered materials• physics of narrowgap semiconductors• physics of magnetic phenomena. Part 3. Magneticanisotropy. Magnetostriction. Domain structureand magnetization• physics of semiconductors• physics of superconductivity• physics phenomena in noncrystal matter• physics phenomena in nonordered matter• physics of magnetic phenomena.
Part 4. Dynamicproperties of magnetic substances• quantum theory of magnetism• physics of rareearth metals and alloys• radiospectroscopy• quantum theory of solid state.• theoretical physics of low temperaturesCHAIR OF CONDENSED MATTER PHYSICS• tunneling effects in superconductors.Head: DrSc, Professor Yury A.