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OSLO EDU WORK. LSST Telescope Simulation using OSLO EDU Preliminary Results. |> cout << ”Last updated :” << last_update << “<br>”; |> Last updated : September 14, 2006 |>.
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OSLO EDU WORK LSST Telescope Simulation using OSLO EDU Preliminary Results |> cout << ”Last updated :” << last_update << “\n”; |> Last updated : September 14, 2006 |> September 2006 Bogdan Popescu
OSLO EDU 6.4.2 Overview 1,2,3 OSLO stands for Optics Software for Layout and Optimization of optical systems. OSLO is used primarily to determine the optimum sizes and shapes of the elements in optical systems in cameras, consumer products, communications systems, military/space applications, scientific instruments, etc. In addition, it is used to simulate the performance of optical systems, and to develop specialized software tools for optical design, testing, and manufacturing. OSLO is software used by scientists and engineers to design lenses, reflectors, optical instruments, laser collimators, and illumination systems. It is also used for simulation and analysis of optical systems using both geometrical and physical optics. In addition to optical design and analysis, OSLO provides a complete technical software development system including interactive graphics, math, and database libraries. There is a free version of OSLO intended for educational use (OSLO EDU). 1 http://lambdares.com/products/oslo/index.phtml 2 http://www.sinopt.com/ 3 OSLO is registered trademarks of Lambda Research Corporation. September 2006 Bogdan Popescu
Telescope Simulation - Conventions September 2006 Bogdan Popescu
Telescope Simulation – OSLO Tools Attributes for surfaces : RADIUS THICKNESS APERTURE RADIUS MATERIAL (air, glass, etc) SPECIAL APERTURE DATA (shape, obstruct, reflect, transmit) SPECIAL SHAPE (polinomial asphere, conic/toric, etc) September 2006 Bogdan Popescu
Telescope Simulation * Primary Mirror - Radius : -1.8635e+04 - Aperture 4.1800e+03 - Special Aperture Data : Circular obstruction of radius 2.5e+03 - Reflective - Conic/Toric Data : conic constant : -1.215 Secondary Mirror - Radius : -6.800e+03 - Aperture 1.700e+03 - Reflective - Conic/Toric Data : conic constant : -0.222 Tertiary Mirror - Radius : -8.400e+03 - Aperture 2.500e+03 - Reflective - Conic/Toric Data : conic constant : 0.155 * All numerical values for radius, aperture are in milimeters September 2006 Bogdan Popescu
Telescope Simulation - Images September 2006 Bogdan Popescu
Telescope Simulation - Images September 2006 Bogdan Popescu
Telescope Simulation - Images September 2006 Bogdan Popescu
Telescope Simulation - Images September 2006 Bogdan Popescu
Telescope Simulation - Images September 2006 Bogdan Popescu
Telescope Simulation - Images September 2006 Bogdan Popescu
Telescope Simulation – Plots and Analysis September 2006 Bogdan Popescu
Telescope Simulation – Plots and Analysis September 2006 Bogdan Popescu
Telescope Simulation – Plots and Analysis September 2006 Bogdan Popescu
Telescope Simulation – Plots and Analysis September 2006 Bogdan Popescu
Telescope Simulation – Plots and Analysis September 2006 Bogdan Popescu
Telescope Simulation – Plots and Analysis September 2006 Bogdan Popescu
Telescope Simulation – Plots and Analysis September 2006 Bogdan Popescu
Telescope Simulation – Plots and Analysis September 2006 Bogdan Popescu
Telescope Simulation – Plots and Analysis September 2006 Bogdan Popescu