Digital Shack-Hartmann wavefront sensing
Wavefront sensor is designed to measure both intensity distribution and phase distortion of optical fields in real time and high accuracy. It can be widely used not only in measuring, diagnostic, but also in adaptive opticaI systems to compensate for phase distortions. The most well known and widely...
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sg-ntu-dr.10356-63312023-03-11T17:38:22Z Digital Shack-Hartmann wavefront sensing Rinov Herawan. Asundi, Anand Krishna School of Mechanical and Aerospace Engineering DRNTU::Engineering::Mechanical engineering::Control engineering Wavefront sensor is designed to measure both intensity distribution and phase distortion of optical fields in real time and high accuracy. It can be widely used not only in measuring, diagnostic, but also in adaptive opticaI systems to compensate for phase distortions. The most well known and widely used Shack-Hartmann wavefront sensor consists of a lenslet array and a CCD camera. The wavefrontsurface under test is divided into a number of beamlets by a two-dimensional sub-apertures of the lenslet array, and each sub-aperture provides a separate focus on the detector of a CCD camera .Then the image spot arraycaptured by CCD can be used to estimate the wavefront local slopes. The centroids of sub-images generated by each lenslet are tested and the sensor output is a set of {x,y}spot positions. Since the SHWS has some advantages for wavefront measuring of a laser beam with a large aperture, and the noise properties of this sensor are well determinedand it is simple to operate sucha sensor, SHWS became the most popularwavefront sensor for adaptive optics. Generally, the wavefrontestimation procedure may be categorized as e Master of Science (Smart Product Design) 2008-09-17T11:12:07Z 2008-09-17T11:12:07Z 2005 2005 Thesis http://hdl.handle.net/10356/6331 Nanyang Technological University application/pdf |
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DRNTU::Engineering::Mechanical engineering::Control engineering Rinov Herawan. Digital Shack-Hartmann wavefront sensing |
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Wavefront sensor is designed to measure both intensity distribution and phase distortion of optical fields in real time and high accuracy. It can be widely used not only in measuring, diagnostic, but also in adaptive opticaI systems to compensate for phase distortions. The most well known and widely used Shack-Hartmann wavefront sensor consists of a lenslet array and a CCD camera. The wavefrontsurface under test is divided into a number of beamlets by a two-dimensional sub-apertures of the lenslet array, and each sub-aperture provides a separate focus on the detector of a CCD camera .Then the image spot arraycaptured by CCD can be used to estimate the wavefront local slopes. The centroids of sub-images generated by each lenslet are tested and the sensor output is a set of {x,y}spot positions. Since the SHWS has some advantages for wavefront measuring of a laser beam with a large aperture, and the noise properties of this sensor are well determinedand it is simple to operate sucha sensor, SHWS became the most popularwavefront sensor for adaptive optics. Generally, the wavefrontestimation procedure may be categorized as e |
| author2 |
Asundi, Anand Krishna |
| author_facet |
Asundi, Anand Krishna Rinov Herawan. |
| format |
Theses and Dissertations |
| author |
Rinov Herawan. |
| author_sort |
Rinov Herawan. |
| title |
Digital Shack-Hartmann wavefront sensing |
| title_short |
Digital Shack-Hartmann wavefront sensing |
| title_full |
Digital Shack-Hartmann wavefront sensing |
| title_fullStr |
Digital Shack-Hartmann wavefront sensing |
| title_full_unstemmed |
Digital Shack-Hartmann wavefront sensing |
| title_sort |
digital shack-hartmann wavefront sensing |
| publishDate |
2008 |
| url |
http://hdl.handle.net/10356/6331 |
| _version_ |
1761781249282670592 |