Physikingenieurwesen (PHY)
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- Physikingenieurwesen (PHY) (266)
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Der Unas-Friedhof in Saqqara
(1975)
Gebrauchstauglichkeit von Medizinprodukten: Grundlage für Sicherheit und Anwenderzufriedenheit
(2002)
Gebrauchstauglichkeit in der Medizintechnik: Grundlage für Sicherheit und Anwenderzufriedenheit
(2002)
Chirurgisches Werkzeug mit bionischem Strukturkonzept; Proceedings 41. Jahrestagung DGBMT, 2007
(2007)
DIN EN 6060 1-1-6 und DIN EN 62366: Ergnonomie und Gebrauchstauglichkeit von Medizinprodukten
(2009)
We have developed, manufactured and tested a unimorph deformable mirror for space applications based on piezoelectric actuation. The mirror was designed for the correction of low-order Zernike modes with a stroke of several tens of micrometers over a clear aperture of 50 mm. It was successfully tested in thermal vacuum, underwent lifetime tests, and was exposed to random vibrations, sinusoidal vibrations, and to ionizing radiation. We report on design considerations, manufacturing of the mirror, and present the test results. Furthermore, we discuss critical design parameters, and how our mirror could be adapted to serve recently proposed space telescopes such as HDST and TALC.
We have developed and manufactured a unimorph deformable mirror for space telescopes based on piezoelectric actuation. The mirror features 44 actuators, has an aperture of 50 mm, and is designed to reproduce low-order Zernike modes with a stroke of several tens of µm. We assessed the space compliance by operating the mirror in thermal vacuum, and exposing it to random and sinusoidal vibrations, as well as to ionizing irradiation. Additionally, the operational life time and the laser power handling capability were tested. The mirror was successfully operated in thermal vacuum at 100 K. We report on the conducted tests and the methods used to evaluate the mirror´s performance, and discuss the compliance with the demanded requirements
Adaptive laser resonators with deformable MOEMS mirrors under closed-loop control are discussed and experimental results are presented. The requirements for deformable mirrors and for closed-loop control systems of these mirrors are analyzed. Several deformable mirrors have been characterized and the results are presented. Currently available membrane mirrors deform under laser load and need further development before they can be used for aberration correction of solid state lasers above some tens of Watts. Nevertheless, the results are encouraging and the requirements are within reach of currently available technology. Finally, we demonstrate an Nd.YVO4-laser with a closed-loop adaptive resonator and more than 6 W of output power. The closed-loop system was able to compensate artificially introduced aberrations from a phase plate.
GSI Darmstadt currently builds a high-energy petawatt Nd:glass laser system, called PHELIX (Petawatt High-Energy Laser for Heavy-Ion Experiments). PHELIX will offer the world-wide unique combination of a high current, high-energy heavy-ion beam with an intense laser beam. Aberrations due to the beam transport and due to the amplification process limit the focusability and the intensity at the target. We have investigated the aberrations of the different amplification stages. The pre-amplifier stage consists of three rod-amplifiers which cause mainly defocus, but also a small part of coma and astigmatism. The main amplifier consists of five disk amplifiers with a clear aperture of 315 mm. These large disk-amplifiers cause pump-shot aberrations which occur instantly. After a shot, the disk amplifiers need a cooling time of several hours to relax to their initial state. This limits the repetition rate and causes long-term aberrations. We will present first measurements of the pump-shot and long-term aberrations caused by the pre- and the main amplifier in a single-pass configuration. In this context, we will present the adaptive optics system which is implemented in the PHELIX beam line and discuss its capability to compensate for the pump-shot and long-term aberrations.
The actuator pattern of an adaptive mirror determines the amplitudes and the fidelities of the mirror deformations that can be achieved. In this study, we analyze and compare different electrode patterns of piezoelectric unimorph deformable mirrors using a numerical finite element model. The analysis allows us to determine the optimum actuator pattern, and it is also applicable to bimorph mirrors. The model is verified by comparing its predictions with experimental results of our prototype of a novel unimorph deformable mirror.
Die Forderungen des Arbeitsschutzgesetzes zur Beurteilung von Arbeitsbedingungen werden im Gesundheitswesen und speziell in den Krankenhäusern durch das Medizinproduktegesetz insofern ergänzt, als damit eine Gefährdung von Sicherheit und Gesundheit von Patienten, Anwendern oder Dritten durch den Einsatz von Medizinprodukten vermieden werden soll. Gesetze, Richtlinien und Verordnungen sowie Normen für den Medizintechnikmarkt fordern dazu die Entwicklung und Anwendung gebrauchstauglicher Medizinprodukte durch verzahnte Ergonomieprozesse bei Herstellern und Leistungserbringern. Mit der vorliegenden Studie sollen diese Ergonomieprozesse durch Informationen, Handlungsanleitungen, Gestaltungsvorschlägen und Prüfschemata in Bezug auf Medizinprodukte unterstützt werden. Dazu wird die Qualität von besonderen Aspekten dieser Ergonomieprozesse durch Auswertung von gemeldeten Vorkommnissen mit Medizinprodukten und unter betrieblichen Bedingungen durch Feldstudien in Krankenhäusern untersucht.
Ziel der Studie war, ausgehend von einer Gefährdungsanalyse und einer Risikoeinschätzung, einen Leitfaden zur systematischen Berücksichtigung der relevanten ergonomischen Aspekte bei der Gestaltung von Medizinprodukten zu erarbeiten. Hierzu sollte der für die Maschinennormung entwickelte Ergonomie-Leitfaden EN 13861 an die besonderen Anforderungen bei der Gestaltung von Medizinprodukten angepasst werden.