"15"^^ . . "15"^^ . . . "2011-01-01+01:00"^^ . . "2015-12-31+01:00"^^ . "3"^^ . . "0"^^ . . "Vytv\u00E1\u0159en\u00ED speci\u00E1ln\u00EDch tenk\u00FDch vrstev UV-Vis-NIR transparentn\u00EDch dielektric pomoc\u00ED ablace repeti\u010Dn\u00EDm kapil\u00E1rn\u00EDm XUV laserem"@cs . . "Pulsed laser deposition (PLD) is well introduced technique for preparation of thin films. However, it has not been realized using a laser operating in the extremely ultraviolet (XUV) spectral range. Interaction of XUV light with matter exhibits several features, which makes it much different in respect to the effect of radiation incidence in ultraviolet, visible and infrared range. Photons of XUV radiation generated by repetition capillary laser of energy 26.4 eV are absorbed in the matter mainly via photoeffect. The bandgap width does not play any important role in the absorption of XUV radiation in the solid state matter. This is a novel unique utilization of XUV for PLD preparation of thin film of materials possessing negligible linear absorption in the UV-VIS-NIR spectral ranges, such as ionic crystals LiF, CaF2, MgF2. The part of this project is a comprehensive study of XUV laser plasma by means of optical emission and mass spectroscopy and mathematical modeling of plasma behavior. Structural, optical and fluorescence properties of the fabricated films will be analyzed."@en . . "1"^^ . . "Fabrication of thin films of UV-Vis-NIR transparent dielectrics by repetitive, capillary-discharge XUV laser ablation"@en . "17367"^^ . . . . "17367"^^ . . "XUV laser ablation, ionic cystal, thin films"@en . "Pulsn\u00ED laserov\u00E1 depozice (PLD) je velmi dob\u0159e zaveden\u00E1 metoda pro p\u0159\u00EDpravu tenk\u00FDch vrstev kter\u00E1 v\u0161ak dosud nebyla realizov\u00E1na s\u00A0laserem pracuj\u00EDc\u00EDm v\u00A0extr\u00E9mn\u011B ultrafialov\u00E9m (XUV) spektr\u00E1ln\u00EDm oboru realizov\u00E1na. Interakce XUV z\u00E1\u0159en\u00ED s hmotou vykazuje \u0159adu rys\u016F, kter\u00E9 ji v\u00FDrazn\u011B odli\u0161uj\u00ED od p\u016Fsoben\u00ED z\u00E1\u0159en\u00ED v ultrafialov\u00E9, viditeln\u00E9 a infra\u010Derven\u00E9 oblasti. Fotony XUV z\u00E1\u0159en\u00ED produkovan\u00E9 repeti\u010Dn\u00EDm kapil\u00E1rn\u00EDm laserem o energii 26,4 eV jsou v materi\u00E1lu pohlcov\u00E1ny t\u00E9m\u011B\u0159 v\u00FDhradn\u011B fotoefektem a \u0161\u00ED\u0159ka zak\u00E1zan\u00E9ho p\u00E1su materi\u00E1lu nem\u00E1 na absorpci XUV z\u00E1\u0159en\u00ED v\u00A0pevn\u00E9 l\u00E1tce z\u00E1sadn\u00ED vliv. Jedn\u00E1 se o zcela unik\u00E1tn\u00ED vyu\u017Eit\u00ED XUV laseru pro PLD p\u0159\u00EDpravu tenk\u00FDch vrstev materi\u00E1l\u016F se zanedbatelnou line\u00E1rn\u00ED absorpci ve UV-Vis-NIR spektr\u00E1ln\u00EDch oblastech, jak\u00FDmi jsou nap\u0159. iontov\u00E9 krystaly LiF, CaF2, MgF2. Sou\u010D\u00E1st\u00ED projektu je komplexn\u00ED studium XUV laserov\u00E9ho plazmatu metodami optick\u00E9 a hmotnostn\u00ED spektroskopie a matematick\u00E9 modelov\u00E1n\u00ED plazmatu. P\u0159ipraven\u00E9 vrstvy budou podrobeny komplexn\u00ED anal\u00FDze struktury, optick\u00FDch vlastnost\u00ED a fluorescence."@cs .