Department of Physical Electronics
FI_KFE01: Amplification of picosecond pulses in near-infrared spectral range (Ing. Jelínek / Ing. Frank)
FI_KFE02: Compact diode-pumped lasers for short pulse generation (Ing. Šulc / prof. Jelínková)
FI_KFE03: Novel double-clad thulium-doped fibers for high power fiber lasers (doc. Peterka (ÚFE) / prof. Kubeček)
FI_KFE04: Raman scattering-based yellow light source for biomedical applications (Ing. Smrž (HiLASE) / Ing. Frank)
FI_KFE05: Pulsed, high-power solid-state lasers generating in spectral range of 1.9 - 3 um (Ing. Smrž (HiLASE) / Ing. Frank)
FI_KFE06: Spectrally-resolved picosecond laser induced damage threshold of transparent optical components in UV spectral range (Ing. Smrž (HiLASE) / Ing. Frank)
FI_KFE07: Advanced methods of high-order harmonic generation (Ing. Nejdl)
FI_KFE08: Numerical methods for modeling of laser interaction with matter (prof. Liska)
FI_KFE09: Atomic processes in kinetic simulations of laser plasma interaction (doc. Klimo)
FI_KFE10: Influence of a strong external magnetic field on the interaction of laser radiation with plasma (doc. Klimo)
FI_KFE11: Plasma optics for ultra-intense lasers, special targets and structures (doc. Klimo)
FI_KFE12: Experimental study of gamma-ray generation in high-intensity laser-plasma interactions (doc. Klimo / Dr. Condamine (ELI))
FI_KFE13: Laser-plasma interaction in the context of inertial confinement fusion (doc. Klimo / Dr. Weber (ELI))
FI_KFE14: Theoretical study of high-intensity laser-plasma interactions (doc. Klimo / Dr. Gelfer (ELI))
FI_KFE15: Quantum vacuum as a nonlinear medium (doc. Klimo / Ing. Jirka (ELI))
FI_KFE16: 3D Lagrangian-Eulerian simulation code for hydrodynamics (doc. Váchal)
FI_KFE17: Advanced numerical methods for hydrodynamic plasma simulations (doc. Kuchařík)
FI_KFE18: Simulation techniques for advanced photonic and plasmonic nanostructures (doc. Richter)
FI_KFE19: Nonlinear and surface effects in photonic and plasmonic nanostructures (doc. Richter)
FI_KFE20: Physics of periodic and quasiperiodic photonic and plasmonic nanostructures (doc. Richter)
FI_KFE21: Resonant effects in photonic and plasmonic nanostructures for sensor applications (doc. Richter)
FI_KFE22: Waveguide and photonic structures with gain - loss compensation (doc. Richter)
FI_KFE23: Graphene in photonic and plasmonic nanostructures (doc. Richter)
FI_KFE24: Surface plasmon microscopy for cellular process studies (prof. Homola (ÚFE) / doc. Richter)
FI_KFE25: Control and diagnostics of laser shock peening robot station (Ing. Blažej)
FI_KFE26: Methods for single photon laser time transfer (Ing. Blažej)
FI_KFE27: Single photon detectors for laser ranging and space debris optical tracking (prof. Procházka)
FI_KFE28: Epoch Timing Device Electronics for Space Projects (prof. Procházka)
FI_KFE29: Development of laser plasma accelerators for radiotherapy (prof. Limpouch / Dr. Grittani (ELI))
FI_KFE30: Capillary discharge active optics (Ing. Jančárek/ Ing. Nevrkla)
FI_KFE31: Periodic anti-counterfeiting nanostructures, structural colors and holograms (Ing. Jančárek / Ing. Hauschwitz (HiLASE))
Department of Materials
FI_KMAT1: Design of equipment for nanoindentation of hydrogenated materials (prof. Dr. Ing. Petr Haušild - KMAT, Ing. Jaroslav Čech, Ph.D. - KMAT)
FI_KMAT2: Determination of mechanical properties of materials by nanoindentation (prof. Dr. Ing. Petr Haušild - KMAT, Ing. Jaroslav Čech, Ph.D. - KMAT)
FI_KMAT3: Advanced characterization of skyrmion-hosting materials (prof. Ing. Jiří Kunz, CSc. - KMAT, Ing. Karel Tesař - KMAT, Ing. Jiří Hlinka, Ph.D. - odd. Dielektrik, Fyzikální ústav AV ČR)
FI_KMAT4: Resonant Ultrasound Spectroscopy for Highly Non-linear Materials (prof. Dr. RNDr. Miroslav Karlík - KMAT, doc. Ing. Hanuš Seiner, Ph.D. - Ústav termomechaniky AV ČR)
FI_KMAT5: Bioactive coatings deposited on low-modulus substrates by supersonic spraying (prof. Dr. RNDr. Miroslav Karlík - Katedra materiálů FJFI ČVUT v Praze, Ing. Jan Čížek, Ph.D. - Institut fyziky plazmatu AV ČR)
FI_KMAT6: Mechanics of grain interactions in phase transforming NiTi shape memory alloys (prof. Dr. RNDr. Miroslav Karlík - Katedra materiálů FJFI ČVUT v Praze, Ing. L. Heller - odd. Funkčních materiálů, Fyzikální ústav AV ČR)
FI_KMAT7: TEM analysis of deformation induced defects in NiTi shape memory alloy (prof. Dr. RNDr. Miroslav Karlík - Katedra materiálů FJFI ČVUT v Praze, RNDr. Orsolya Molnárová, Ph.D. - odd. Funkčních materiálů, Fyzikální ústav AV ČR, RNDr. Petr Šittner, CSc. - odd. Funkčních materiálů, Fyzikální ústav AV ČR)
FI_KMAT8: Mixed-Mode Fatigue Crack Propagation in Planar Specimens (Ing. Aleš Materna, Ph.D. - Katedra materiálů FJFI ČVUT v Praze)
FI_KMAT9: Elastically Strained Martensitic Microstructures (Ing. Aleš Materna, Ph.D. - Katedra materiálů FJFI ČVUT v Praze, doc. Ing. Hanuš Seiner, Ph.D. - Ústav termomechaniky AV ČR)
FI_KMAT10: Refractory materials prepared by thermal spray (Ing. Ondřej Kovářík, Ph.D. - Katedra materiálů FJFI ČVUT v Praze)
FI_KMAT11: Preparation of advanced composite materials by plasma spraying (Ing. Ondřej Kovářík, Ph.D. - Katedra materiálů FJFI ČVUT v Praze, Ing. Radek Mušálek, Ph.D. - Ústav fyziky plazmatu AV ČR)
FI_KMAT12: Structural and morphological modification of powders by plasma technologies (Ing. Ondřej Kovářík, Ph.D. - Katedra materiálů FJFI ČVUT v Praze, Ing. Radek Mušálek, Ph.D. - Ústav fyziky plazmatu AV ČR)
FI_KMAT13: Influence of extreme environments on microstructure of plasma sprayed coatings (Ing. Ondřej Kovářík, Ph.D. - Katedra materiálů FJFI ČVUT v Praze, Ing. Radek Mušálek, Ph.D. - Ústav fyziky plazmatu AV ČR)
FI_KMAT14: Using plasma spraying for additive manufacturing (Ing. Ondřej Kovářík, Ph.D. - Katedra materiálů FJFI ČVUT v Praze, Ing. Radek Mušálek, Ph.D. - Ústav fyziky plazmatu AV ČR)
FI_KMAT14: Using plasma spraying for additive manufacturing (Ing. Ondřej Kovářík, Ph.D. - Katedra materiálů FJFI ČVUT v Praze, Ing. Radek Mušálek, Ph.D. - Ústav fyziky plazmatu AV ČR)
FI_KMAT15: Adhesion of sprayed deposits (Ing. Ondřej Kovářík, Ph.D. - Katedra materiálů FJFI ČVUT v Praze, Ing. Radek Mušálek, Ph.D. - Ústav fyziky plazmatu AV ČR)
FI_KMAT16: Mechanical and fatigue properties of AM aerospace materials (Ing. Ondřej Kovářík, Ph.D. - Katedra materiálů FJFI ČVUT v Praze)
FI_KMAT17: Development of novel biodegradable magnesium alloys (Ing. Karel Tesař, Ph.D. - KMAT)
FI_KMAT18: Use of icosahedral quasicrystalline phase for strengthening of Mg alloys (Ing. Karel Tesař, Ph.D. - KMAT)
FI_KMAT19: Production and characterization of quasicrystalline materials (Ing. Karel Tesař, Ph.D. - KMAT)
FI_KMAT20: Dynamic performance of materials for biomedical implants (Ing. Karel Tesař, Ph.D. - KMAT)
FI_KMAT21: Advanced testing of biomedical ferroic materials (Ing. Karel Tesař, Ph.D. - KMAT, Ing. Jaroslav Čech, Ph.D. - KMAT)
Department of Solid-State Engineering
FI_KIPL1: Computer-aided design of novel High Entropy Alloys (Mgr. Jaroslav Hamrle, Ph.D., doc. Ing. Ladislav Kalvoda, CSc. - Katedra inženýrství pevných látek FJFI ČVUT v Praze)
FI_KIPL2: Methods of determination of inserted stresses of elastically strained materials and their comparison (prof. Ing. Nikolaj Ganev, CSc., Ing. Jiří Čapek, Ph.D. - Katedra inženýrství pevných látek FJFI ČVUT v Praze)
FI_KIPL3: Computational methods in macromolecular crystallography (doc. Ing. Petr Kolenko, Ph.D. - Katedra inženýrství pevných látek FJFI ČVUT v Praze)
FI_KIPL4: Preparation of Thin films from Novel High Entropy Alloys (doc. Ing. Ladislav Kavoda, CSc., Ing. Jakub Skočdopole, Ph.D. - Katedra inženýrství pevných látek FJFI ČVUT v Praze)
FI_KIPL5: Quantitative texture analysis of metals and rocks using neutron diffraction (doc. Ing. Ladislav Kavoda, CSc., prof. Ing. Stanislav Vratislav, CSc., Ing. Monika Kučeráková, Ph.D. - Katedra inženýrství pevných látek FJFI ČVUT v Praze)
FI_KIPL6: Quantum properties of plasmonic nanostructures: analysis and simulations (Mgr. Jaroslav Hamrle, Ph.D., doc. Ing. Ladislav Kalvoda, CSc. - Katedra inženýrství pevných látek FJFI ČVUT v Praze)
FI_KIPL7: Metal nanoparticles: theoretical model of surface plasmons for quantum information (doc. Ing. Irena Kratochvílová, Ph.D. - Katedra inženýrství pevných látek FJFI ČVUT v Praze)
FI_KIPL8: Structure analysis of original high entropy alloys (prof. Ing. Nikolaj Ganev, CSc., Ing. Jiří Čapek, Ph.D., doc. Ing. Ladislav Kalvoda - Katedra inženýrství pevných látek FJFI ČVUT v Praze)
FI_KIPL9: Diamond nanoparticles size distribution determined from Raman spectroscopy (RNDr. Marin Ledinský, Ph.D., Ing. Aleš Vlk – FZÚ AV ČR)
FI_KIPL10: Experimental research of materials for thermoelectric applications - Seebeck effect (Ing. Jiří Hejtmánek, CSc., Ing. Petr Levinský, Ph.D. - FZÚ AV ČR)
FI_KIPL11: Experimental research of materials for thermoelectric applications - Nernst effect (Ing. Jiří Hejtmánek, CSc., Ing. Petr Levinský, Ph.D. - FZÚ AV ČR)
FI_KIPL12: Calculations of thermoelectric properties from electronic structures aka searching of pudding in spaghetti (RNDr. Karel Knížek, Dr., Ing. Jiří Hejtmánek, CSc. – FZÚ AV ČR)
FI_KIPL13: Spectral imaging of halide perovskites films for solar cells (RNDr. Marin Ledinský, Ph.D., Ing. Aleš Vlk – FZÚ AV ČR)
FI_KIPL14: Study of advanced metal oxide-based thin-film materials for advanced applications in additive manufacturing and 3D printing (prof. Ing. Zdeněk Bryknar, CSc., Ing. Alexander Dejneka, Ph.D. - Katedra inženýrství pevných látek FJFI ČVUT v Praze / FZÚ AV ČR).
FI_KIPL_15: Luminescence spectroscopy of optically active impurities in perovskite-like materials (Ing. Zdeněk Potůček, Ph.D. - Katedra inženýrství pevných látek FJFI ČVUT v Praze)
FI_KIPL16: Luminescence of colour centres in diamond (prof. Ing. Zdeněk Bryknar, CSc., Ing. Kateřina Aubrechtová Dragounová, Ph.D., Ing. Štěpán Potocký, Ph.D. - Katedra inženýrství pevných látek FJFI ČVUT v Praze)
FI_KIPL17: THz spin excitations in antiferromagnetic orthoferrites and multiferroics (RNDr. Stanislav Kamba, CSc., DSc. - FZÚ AV ČR)
FI_KIPL18 - Advanced nanomaterials for tactile sensors and e-skin applications (Dr. Červenka - FZÚ AV ČR/ doc. Kalvoda - KIPL)
FI_KIPL19 - Development and application of novel concepts and methods in atomistic simulations of solids (Ing. Petr Sedlák, PhD - KIPL)
Department of Physics
FI_KF1: Study of attenuation scenarios of runaway electrons in tokamaks by interaction with impurities (doc. RNDr. Jan Mlynář, Ph.D. – Katedra fyziky FJFI ČVUT v Praze)
FI_KF2: Data processing methods in diagnostics of energy particles on tokamaks (doc. RNDr. Jan Mlynář, Ph.D. – Katedra fyziky FJFI ČVUT v Praze)
FI_KF3: Transport in tokamak SOL, (Mgr. Jakub Seidl, Ph.D. – Katedra fyziky FJFI ČVUT v Praze)
FI_KF4: Measurement and processing of electron temperature and plasma density profiles in tokamaks (Mgr. Michael Komm, Ph.D. – Katedra fyziky FJFI ČVUT v Praze)
FI_KF5: Application of semiconductor radiation detectors in fusion experiments (Ing. Michal Marčišovský, Ph.D. – Katedra fyziky FJFI ČVUT v Praze)
FI_KF6: Soft X-ray tomography on a tokamak COMPASS-U (doc. RNDr. Jan Mlynář, Ph.D. - Katedra fyziky FJFI ČVUT v Praze)
FI_KF7: Study of propagation of electromagnetic waves in plasmas (Ing. Martin Hron, Ph.D. - Katedra fyziky FJFI ČVUT v Praze)
FI_KF8: Electron temperature fluctuations in edge plasma (Mgr. Jakub Seidl, Ph.D. - Katedra fyziky FJFI ČVUT v Praze)