"5"^^ . . "Shape measuring of ultralight mirrors"@en . . "Pech, Miroslav" . . "The theory, optical, mechanical and software design for a special Hartmann wavefront analyzer is presented. This method is applied for the non-contact method of concave mirrors shape measurements. The Joint Laboratory of Optics produces segmented mirrors for the Pierre Auger observatory fluorescent detector [1] and we use this method as the objective measurement of this spherical mirror segments. These segments are unique because they are light and ultra-thin. The production of mirrors is based on standard operations commonly used in the optical industry (cutting, drilling, milling, grinding and polishing), with the difference that they are extremely thin. This fact can cause segment shape instability in the production process. This method objectively defines the shape and specifies the difference of the segment shape from an ideal surface in micrometer accuracy."@en . . "M\u011B\u0159en\u00ED tvaru ultratenk\u00FDch zrcadel"@cs . . "Shape measuring of ultralight mirrors" . "No\u017Eka, Libor" . . "449672" . "5"^^ . . . "P(1M06002)" . "RIV/61989592:15310/07:00007700" . . "Schov\u00E1nek, Petr" . "Shape measuring of ultralight mirrors"@en . "RIV/61989592:15310/07:00007700!RIV09-MSM-15310___" . "Mand\u00E1t, Du\u0161an" . "[2DD531AE3AC0]" . "1"^^ . . . . "Olomouc" . "Univerzita Palack\u00E9ho v Olomouci" . "V tomto textu je prezentov\u00E1na speci\u00E1ln\u00ED varianta takzvan\u00E9ho Hartmannova testu vlnoplochy. Tato metoda je zde aplikov\u00E1na pro m\u011B\u0159en\u00ED tvaru konk\u00E1vn\u00EDch zrcadel. Spole\u010Dn\u00E1 laborato\u0159 optiky vyr\u00E1b\u00ED segmenty zrcadel pro fluorescen\u010Dn\u00ED teleskop v r\u00E1mci projektu Pierre Auger [1], tato metoda je u\u017Eita pro objektivn\u00ED m\u011B\u0159en\u00ED kvality tvaru t\u011Bchto zrcadlov\u00FDch segment\u016F. Tato zrcadla jsou zcela unik\u00E1tn\u00ED pro jejich extr\u00E9mn\u011B malou tlou\u0161\u0165ku. Jejich v\u00FDroba je zalo\u017Eena na principu pou\u017E\u00EDvan\u00E9m p\u0159i v\u00FDrob\u011B klasick\u00FDch optick\u00FDch prvk\u016F (o\u0159ez\u00E1n\u00ED, fr\u00E9zov\u00E1n\u00ED, brou\u0161en\u00ED, le\u0161t\u011Bn\u00ED a nanesen\u00ED tenk\u00FDch vrstev) s t\u00EDm rozd\u00EDlem, \u017Ee tato zrcadla jsou velice tenk\u00E1. Tento fakt m\u016F\u017Ee zap\u0159\u00ED\u010Dinit tvarovou nestabilitu t\u011Bchto zrcadel. Na\u0161e varianta Hartmanova testu m\u016F\u017Ee objektivn\u011B ur\u010Dit odchylku tvaru zrcadlov\u00E9ho segmentu od ide\u00E1ln\u00ED plochy."@cs . "Hrabovsk\u00FD, Miroslav" . "15310" . "Shape measuring of ultralight mirrors" . "978-80-244-1844-5" . "The theory, optical, mechanical and software design for a special Hartmann wavefront analyzer is presented. This method is applied for the non-contact method of concave mirrors shape measurements. The Joint Laboratory of Optics produces segmented mirrors for the Pierre Auger observatory fluorescent detector [1] and we use this method as the objective measurement of this spherical mirror segments. These segments are unique because they are light and ultra-thin. The production of mirrors is based on standard operations commonly used in the optical industry (cutting, drilling, milling, grinding and polishing), with the difference that they are extremely thin. This fact can cause segment shape instability in the production process. This method objectively defines the shape and specifies the difference of the segment shape from an ideal surface in micrometer accuracy." . . "Optick\u00E9 struktury, detek\u010Dn\u00ED syst\u00E9my a souvisej\u00EDc\u00ED technologie pro n\u00EDzkofotonov\u00E9 aplikace" . "M\u011B\u0159en\u00ED tvaru ultratenk\u00FDch zrcadel"@cs . . "ultralight mirror; Hartmann test; Pierre Auger"@en . .