Booklet-ФФ-2005-EN, страница 6
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OssipyanJointly with the Institute of Solid State Physics,Russian Academy of Science (Chernogolovka,Moscow Region)CHAIR OF GENERAL PHYSICSAND MAGNETOORDERED MEDIAHead: DrSc, Professor Boris A. StrukovKey research directions:Key research directions:• ferroelectric properties and phase transitions inpolyfunctional ferroelectric materials — crystals,liquid crystals, and thin films• investigation of physical properties of magneticsemiconductors• investigations of the nature of magnetic, magnetoelastic, and ferroelectric couplings in new magnetic materials based on rareearth and transitionelements• investigations of hyperfine interactions and localmagnetic states in magnetically ordered alloys andcompounds• lowdimensional electron systems• superconductivity• materials science• quantum transport• electron properties of materials at low and hightemperatures.Offered courses:• dielectric and magnetic properties of solids• electron properties of disordered systems• electrons in disordered media• investigation of magnetic properties and exchangeinteractions in crystalline and amorphous alloys ofrare earth metals• group theory in solidstate physics• twodimensional magnetism.
Magnetic refrigeration.• introduction to physics of superconductorsOffered courses:• computerized data acquisition systems in modernexperimental physics• interacting electrons in normal metals• modern aspects of solidstate physics• physical fundamentals of modern methods ofinvestigations of real structure of crystals• physics of lowdimensional systems• contemporary experimental methods in solidstate physics• physics of metals• crystal growth and contemporary methods ofmaterials preparation• quantum Hall effect• crystallography and representations of crystallographic groupsF A C U L T YO FP H Y S I C S•M .V .• physics of semiconductors• spectroscopy of semiconductors and dielectrics• xray analysis.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 F25P H Y S I C SDIVISION OF RADIOPHYSICSAND ELECTRONICSCHAIR OF PHYSICS OF OSCILLATIONSHead: DrSc, Professor Alexander S.
LogginovKey research directions:• measuring methods based on quantum effects• theoretical and experimental investigationsof the fundamental losses and noises in oscillators• nonlinear oscillation and wave phenomena inphysics• quantum measurement theory• optical processing of information• optoelectronics and optical information processingby means of acoustooptic methods• oscillation systems with small dissipation• nonlinearsystemsparametricandselfoscillating• dynamic phenomena in materials and devices ofphotonics and spintronics.Offered courses:• parametric and selfoscillating systems• physics foundation of electrical and acousticaloptics• pulsed signals and transient processes in electronics systems• quantum communications and quantum calculations• computer methods in physical research• distributed oscillatory systems• quantum oscillating systems• electronics of semiconductor devices• fluctuations in physical systems• quantum theory of measurements and checking ofhypotheses• foundation of optoelectronics• semiconductor lasers and optic waveguiges• group theory in physics of oscillations• introduction to quantum measurements• statistical analysis and signal processing in physicsmeasurements• introduction to solidstate physics• theory of oscillations• introduction to theory of dynamic systems• waves in guiding structures.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 C26R E S E A R C HATT H EFAC U LT YO FP H Y S I C S• optics of randomly inhomogeneous media• optics of ultrashort pulses• physics of lasers• physics of solids and phase transition• quantum random processes• resonant nonlinear optical processes• statistical and quantum optics• statistical radiophysics.CHAIR OF ACOUSTICSHead: DrSc, Professor Oleg V.
RudenkoKey research directions:CHAIR OF GENERAL PHYSICS AND WAVEPROCESSES• nonlinear acoustics and nonlinear wave physics.Nonlinear dynamics. Statistical problemsHead: DrSc, Professor Vladimir A. Makarov• inverse problems of acoustic scattering. Nonlinear and opticoacoustics diagnosticsKey research directions:• nonlinear optics and nonlinear optical materials• physical acoustics of solids.
Acoustics in materialscience• laser diagnostics and spectroscopy of matter andbiological objects• natural media acoustics, acoustic ecology• adaptive optics and optics of inhomogeneousmedia• quantum and statistical optics, quantum information• interaction of powerful laser radiation with matter,ultrashort laser pulses.Offered courses:• applied acoustics (ultrasound in medicine, industry,construction, musical and architecture acoustics).Offered courses:• acoustic nonlinearity of solids• acoustics of ocean for acousticians• acoustics of ocean. Part I.
General hydroacoustics• acoustics of ocean. Part II. Statistical hydroacoustics• atomic species and plasma in strong light fields• dynamics of continua for radiophysicists• autowave processes• foundation of vectorphase measurements ofacoustical fields• coherent control and timeresolved spectroscopy• dynamics of biomolecules: Laser spectroscopy andmathematical modeling• introduction to acoustics• dynamics of lasers• methods of hydroacoustical measurements• fundamentals of photonics and optical technologies• microwave acoustics and acoustoelectronics• fundamentals of quantum electronics• hightemperature femtosecond laserproducedplasma• inverse scattering problems in acoustics• nonlinear hydroacoustics• numerical methods in acoustics• physical acoustics.
Parts I&II• interaction of laser radiation with molecular gases• physics of noise and vibrations• laser diagnostics in biology and medicine• sound sources• laser optoacoustics• theoretical foundations of acoustics. Part 1.Radiation and scattering of acoustical waves• lasers and nonlinear optics• theoretical foundations of acoustics. Part 2.Acoustical wave propagation in bounded media• matter in strong light field• modern computer technologies in detection, dataacquisition and dataprocessing, and control systems• ultrasonics methods in solidstate physics.• modern problems of adaptive opticsCHAIR OF RADIOPHYSICS• nonlinear laser spectroscopyHead: DrSc, Professor Anatoly P. Soukhorukov• nonlinear polarization opticsKey research directions:• nonlinear waves and nonlinear optics• optical data processing• physics of wave interactions in nonlinear and inhomogeneous media• optics of conducting polymers and nanomaterials• microwave electronicsF 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 FP H Y S I C S27• physics of millimeter waves• nonlinear optics• longdistance propagation of waves• physical basics of quantum information• physics of ferrites, ferroelectrics, and magnetooptical crystals.• physics of condensed state of matterOffered courses:• physics of nanostructures and mesoscopic phenomena• quantum electronics• bifurcations and catastrophes• diffractions and dispersion phenomenon in nonlinear media• digital systems and processes• electron beam interaction with electromagneticfield• quantum optics• scanning probe spectroscopy and basics of nanoelectronics• theoretical basics of quantum radiophysics• theory of nonlinear waves• theory of oscillations.• fiber optics• microwave solidstate electronics• millimeters wavesCHAIR OF PHYSICAL ELECTRONICS• nonlinear microwave electronicsHead: DrSc, Professor Andrei F.
Alexandrov• nonlinear wavesKey research directions:• numerical methods in radiophysics• numerical modeling in nonlinear electrodynamics• physics of microwaves• propagation of electromagnetic waves in troposphere• physics of different type gas discharges includingdischarges in supersonic gas flows and inflammable mixture• electron and ion microscopy and spectroscopy ofsolid state surfaces and thin films• physical foundations of micro and nanoelectronics elements creation and their diagnostics• quantum phenomena in radiophysics• radiospectroscopy• physical foundations for the development of novelmaterials including the carbonic ones and surfaceproperties modification using plasma and beamtechnologies• radiowaves propagation in Earth ionosphere• submillimeter radiospectroscopy• wave theory.• dense relativistic electron beam physics and plasma microwave electronics.CHAIR OF QUANTUM ELECTRONICSOffered courses:Head: DrSc, Professor Vladimir I.
Panov• additional chapters of solidstate electronicsKey research directions:• diagnostic of plasma• nonlinear optics of nanostructures and photoncrystals• dynamics and susceptibility of chaotic systems• fundamental processes in surface nanostructuresand in systems with lowered dimension• dynamics of radiating plasma• electrodynamics of plasma and plasmalike media• electron spectroscopy and microanalysis• electron spectroscopy of solid state• quantum optics, scattering on polaritons andparametric scattering of light• elementary processes and kinetics of lowtemperature plasma• laser spectroscopy of aqueous media.