Tento článek představuje stručný vhled do současného stavu dostupných laserových systémů, které v rámci centra HiLASE slouží ke studiu základních i pokročilých aspektů interakce laserového záření s látkou. Výzkum v této oblasti je organizován především v rámci projektu BIATRI ("Pokročilá tvorba funkčních materiálů: Od mono- k BI A TRI-chromatické excitaci s tvarovanými laserovými impulzy") [1]., This article presents a brief introduction to, and the current state of, available laser systems for the study of both fundamental and advanced aspects of laser-matter interaction. The planned research work is mainly organized under the framework of project BIATRI (“Advanced designing of functional materials: From mono- to BI- And TRI-chromatic excitation with tailored laser pulses”). The strategic aim of BIATRI is to explore novel pathways of matter evolution, for designing materials with new unique properties and to find specific conditions for the most efficient coupling of laser light with matter. A key role in BIATRI work packages is hot plasma effects, which create extreme heating conditions, and which are difficult to reach by other means. This can be achieved by finding specific conditions with programmed coupling of laser light with matter. It is planned to use both mono-chromatic light with specific focusing conditions and combinations of two or three laser beams with different wavelengths. The first pulse will generate a free carrier population within the irradiated material enabling the efficient absorption of photons from a second or/and third pulse. Planned research work is also supplementary by the large-scale project HiLASE CoE, providing synergy for the whole scope of lab research work., Nathan Goodfriend, Juraj Sládek, Miroslava Flimelová, Wladimir Marine, Inam Mirza, Nadezhda M. Bulgakova., and Obsahuje bibliografické odkazy