"Conference Proceedings - Optics and Measurement International conference 2012" . . "laser lithography; matrlix laser lithography; photonic micro-structures"@en . . . "RIV/68407700:21340/12:00203989" . "21340" . "Liberec" . "\u00DAstav fyziky plazmatu AV \u010CR" . "Fabrication of synthetic diffractive elements using advanced matrix laser lithography" . "[784D52F0EDA6]" . "Fiala, Pavel" . . . . . . . "135995" . "Svoboda, Jakub" . "RIV/68407700:21340/12:00203989!RIV13-AV0-21340___" . "P(KAN401220801)" . "\u0160kere\u0148, Marek" . . "Fabrication of synthetic diffractive elements using advanced matrix laser lithography"@en . . . "978-80-87026-02-1" . "4"^^ . "2012-10-16+02:00"^^ . . "\u0160kere\u0148, Marek" . "Fabrication of synthetic diffractive elements using advanced matrix laser lithography" . "4"^^ . "Fabrication of synthetic diffractive elements using advanced matrix laser lithography"@en . "Prague" . . "A laser writing technique for fabrication of diffractive and photonic structures is presented, which is based on a computer driven matrix exposure of a recording material. In contrast to the commonly used laser writing techniques, a relatively large area is exposed within a single exposure step, which ensures a high speed of the writing process. The exposed micro-structure is projected from a computer driven spatial light modulator with high resolution on a recording material with strong demagnification. The mechanically passive projection ensures high precision of the writing process, which is limited only by the Rayleigh diffraction limit. When multiple exposures of the same area are used, complicated micro-structures can be prepared. The device constructed on the described basis will be presented together with different samples prepared using this technology. Selected applications of the elements will be also mentioned."@en . "Kv\u011Bto\u0148, Milan" . . . "5"^^ . . "A laser writing technique for fabrication of diffractive and photonic structures is presented, which is based on a computer driven matrix exposure of a recording material. In contrast to the commonly used laser writing techniques, a relatively large area is exposed within a single exposure step, which ensures a high speed of the writing process. The exposed micro-structure is projected from a computer driven spatial light modulator with high resolution on a recording material with strong demagnification. The mechanically passive projection ensures high precision of the writing process, which is limited only by the Rayleigh diffraction limit. When multiple exposures of the same area are used, complicated micro-structures can be prepared. The device constructed on the described basis will be presented together with different samples prepared using this technology. Selected applications of the elements will be also mentioned." . . .