Print Email Facebook Twitter Adaptive Optics with Curvature Wavefront Sensor Title Adaptive Optics with Curvature Wavefront Sensor Author Coroli, Iurie (TU Delft Mechanical, Maritime and Materials Engineering; TU Delft Delft Center for Systems and Control) Contributor Vdovin, Gleb (mentor) Pozzi, P. (mentor) Degree granting institution Delft University of Technology Programme Mechanical Engineering | Systems and Control Date 2018-09-14 Abstract When acquiring information using imaging techniques, one wants to achieve the best possible resolution in order to obtain valuable results. In the ideal scenario the size of the smallest resolved object features is limited by the wave properties of light, with a number of techniques developed to overcome this limit. In real life measurements the image quality is additionally deteriorated by the non-uniformities in refractive index along the beam propagation path, called aberrations. Adaptive Optics, introduced in 1950’s independently by Horace Babcock and Vladimir Linnik is a set of methods used to overcome the effect of aberrations and thus improve the image quality. Initially used in military applications for tracking satellites, it later found civilian applications as advances in computing made it practical.Adaptive Optics use principles of feedback control to correct aberrations, and thus a measurement of controlled variable is required. The most commonly measured quantity is first derivative of wavefront provided by the Shack-Hartmann sensor. Another possibility is to measure wavefront Laplacian, i.e. curvature, using the sensor proposed by Roddier in 1988. With the correct use of this sensor the deformable mirror actuators are decoupled from each other, enabling fast and accurate control of high order systems and potentially analog feedback loop.In this thesis, the Roddier curvature wavefront sensor is studied. A number of modifications in the original sensor geometry and operating principles are made in order to make the system more robust and easy to implement in laboratory environment. Performance of the modified curvature wavefront sensor is evaluated in both simulation environment and physical setup.Finally, application of the curvature sensor to measure wind velocity is demonstrated. Subject Adaptive OpticsImagingWavefront SensorControl To reference this document use: http://resolver.tudelft.nl/uuid:60210434-09a0-42bb-ac16-23fcd1ae9f93 Part of collection Student theses Document type master thesis Rights © 2018 Iurie Coroli Files PDF Coroli_4552245.pdf 16.88 MB Close viewer /islandora/object/uuid:60210434-09a0-42bb-ac16-23fcd1ae9f93/datastream/OBJ/view