"Vybran\u00E9 molekul\u00E1rn\u00ED pevn\u00E9 l\u00E1tky, iontov\u00E9 krystaly, mnohovrstv\u00E9 struktury a plazmidov\u00E1 DNA byly oz\u00E1\u0159eny jedn\u00EDm nebo v\u00EDce pulzy z\u00E1\u0159en\u00ED extr\u00E9mn\u00EDho ultrafialov\u00E9ho (XUV) kapil\u00E1rn\u00EDho laseru na fluenc\u00EDch vy\u0161\u0161\u00EDch resp. ni\u017E\u0161\u00EDch ne\u017E pr\u00E1h po\u0161kozen\u00ED p\u0159\u00EDslu\u0161n\u00E9ho materi\u00E1lu jedn\u00EDm impulzem XUV laserov\u00E9ho z\u00E1\u0159en\u00ED. Abla\u010Dn\u00ED/desorp\u010Dn\u00ED kontury byly vyu\u017Eity k anal\u00FDze rozlo\u017Een\u00ED intenzity z\u00E1\u0159en\u00ED ve fokusovan\u00E9m svazku."@cs . . . "The compact repetition (10 Hz) capillary discharge XUV laser (CDL) was built and delivered to Prague by the XUV laser group at Colorado State University, Fort Collins, CO (head: Jorge J. Rocca) in 2007, according to the bilateral agreement between CSU and Institute of Physics of the Czech Academy of Sciences (IP-ASCR, Prague) on establishing the joint laboratory in Prague for utilization of this unique laser device. The source produces nanosecond pulses of coherent 46.9-nm radiation emitted due to lasing of Ne-like Ar ions collisionally excited in the pinching plasma of the capillary discharge. Thus, we have a laser beam of ionizing radiation ready for numerous applications in the joint laboratory. In this proposal, we would like to suggest studying irreversible changes induced on surfaces of various materials and nanostructures by the focused CDL beam. The radiation is very suitable for such studies because is both ionizing (a single photon of XUV radiation carries much more energy than a photon o"@en . "Radiation chemical applications of repetition capillary discharge XUV laser: processes on solid surfaces"@en . "Souhrnn\u00FD c\u00EDl projektu spo\u010D\u00EDv\u00E1 v z\u00EDsk\u00E1n\u00ED origin\u00E1ln\u00EDch v\u011Bdeck\u00FDch v\u00FDsledk\u016F v oboru interakce extr\u00E9mn\u00EDho ultrafialov\u00E9ho laserov\u00E9ho z\u00E1\u0159en\u00ED generovan\u00E9ho repeti\u010Dn\u00EDm stoln\u00EDm kapil\u00E1rn\u00EDm laserem (XUV CDL) s r\u016Fzn\u00FDmi materi\u00E1ly." . . "27"^^ . . . "ME10046" . "27"^^ . . . . " capillary discharge" . "2012-02-16+01:00"^^ . "Selected molecular solids, ionic crystals, multilayer structures and plasmid DNA were irradiated by a single pulse and multiple pulses of extreme ultraviolet capillary-discharge laser (XUV CDL) at fluences above and below the single-shot damage threshold of a particular material, respectively. Observed damage patterns were utilized for characterization of focused beams of short-wavelength lasers."@en . . " table to XUV source" . . " development of high-flux XUV/X-ray optics" . "http://www.isvav.cz/projectDetail.do?rowId=ME10046"^^ . "2010-05-01+02:00"^^ . . . "Radia\u010Dn\u011B chemick\u00E9 aplikace repeti\u010Dn\u00EDho kapil\u00E1rn\u00EDho XUV laseru: povrchy pevn\u00FDch l\u00E1tek" . " material surface processing" . "1"^^ . " radiobiology" . "2013-06-28+02:00"^^ . "2012-12-31+01:00"^^ . " non-Gaussian beam" . "0"^^ . . "0"^^ . "XUV laser; table to XUV source; capillary discharge; non-Gaussian beam; material surface processing; astrobiology; radiobiology; development of high-flux XUV/X-ray optics; radiation damage"@en . . . . . "XUV laser" . " astrobiology" . . . .