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IPE/Info/About Institute Institute presentation
Institute presentation
Characteristics of the institute
The Institute provides the fundamental university physics course for all students of the Faculty in the first and second years and is also responsible for the Physical Engineering Study Programme introduced in early ninetieth. Physical Engineering is a curriculum designed to educate engineers to work in areas in which the technology is developing rapidly and in areas which overlap the boundaries of several traditional disciplines. At present, the three mainstreams are being developed in the Institute: Engineering Optics, Surface Physics and Engineering and Micromechanics of Materials. For students interested primarily in the design of instruments and application of optical elements in measuring devices and control systems engineering degree programme in Precision Mechanics and Optics is offered.
Departmens
Department of optics and precision mechanics
optical diffraction and optical processing (Fourier transform, analysis of periodical objects, analysis of EM images, spatial filtering)
optical holography, multidirectional holographic interferometry, computed tomography, holographic nondestructive testing
determination of characteristics of rough surfaces by means of methods of coherent optics (based on laser light scattering or classical interferometry)
self-organized and photoinduced nonlinear optical phenomena
development of the special optical and mechanical systems for optical and holographic interferometry
development of ultrahigh precision positioning equipment for optical applications such as confocal microscopy; near-field scanning microscopy or mask alignment
analysis of reflectors for illuminating systems
ray tracing of symmetrical optical systems with the use of CAD systems
Department of solid state physics and surfaces
ion beam treatment of solid surfaces, deposition of thin films by ion beam sputtering
development of the apparatus for direct UHV ion beam deposition at ultralow ion beam energies and in-situ analysis (SIMS, LEIS, ellipsometry and interferometry, STM/AFM)
Ewald's dynamical theory of diffraction
Department of micromechanics of materials and engineering acoustics
physics and micromechanics of deformation and fracture of materials
computer modelling 3D materials structures and damage evolution
ab initio models of deformation and fracture of crystals
the noise monitoring in working and living environment, accoustics properties of materials
operation of the State Accredited Acoustic Testing Laboratory accredited for testing the ambient noise in engineering practice
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