Y. C. Lee scite author profile

Y. C. Lee

2Publications

1Citation Statement Received

11Citation Statements Given

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Agency for Defense Development

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Investigation into the validity of Shack-Hartmann sensor for practical applications: intensity variations

Lee

Kang

Lee

et al. 2005

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Wavefront sensing using a Shack-Hartmann sensor has been widely used for estimating wavefront errors or distortions. The sensor combines the local slopes, which are estimated from the centroids of each lenslet images, to give the overall wavefront reconstruction. It was previously shown that the pupil-plane irradiance profile effects on the centroid estimation. Furthermore, a previous study reported that the reconstructed wavefront from a planar wavefront with a Gaussian pupil irradiance profile contain large focus and spherical aberration terms when there is a focus error. However, it has not been reported yet how serious the pupil irradiance profiles, which can be occurred in practical applications, effects on the sensing errors. This paper considered two cases when the irradiance profiles are not uniform: 1) when the light source is Gaussian and 2) when there is a partial interference due to a double reflection by a beam splitting element. The images formed by a Shack-Hartmann sensor were simulated through fast Fourier transform and were then supposed to be detected by a noiseless CCD camera. The simulations found that sensing errors, due to the Gaussian irradiance profile and the partial interference, were found to be smaller than λ/50 which can be ignored in most practical cases where the reference and test beams have the same irradiance profiles.

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Study of a circular bimorph deformable mirror for circular/annulus/square laser beam compensation

Lee

Gho

Hyu

et al. 2004

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We are performing a research on the application of an adaptive optics system to upgrade the beam quality of a laser. We consider the adaptive optics system to consist of a bimorph mirror, a Shack-Hartmann sensor and a control system. Since the laser beam can be circular, annulus or square/rectangle, we predicted the performance of a circular bimorph deformable for each different beam shapes. We selected a bimorph mirror of 120 mm clear aperture with 31 actuators as a design candidate. Firstly we found that the fitting ability of the bimorph mirror for a circular/annulus beam can significantly improve by limiting the correctable area to an annulus of 100mm outer diameter and 20mm inner diameter, which our square laser beam fits into. This study shows that the bimorph mirror, which might be considered as a modal controller, can compensate the square lower order aberrations with fitting abilities larger than 0.95 for tilt, defocus, coma and astigmatism, and 0.82 for spherical aberration. Finally we concluded that the circular bimorph mirror is perfectly okay for square laser beam compensating.

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Y. C. Lee

Investigation into the validity of Shack-Hartmann sensor for practical applications: intensity variations

Study of a circular bimorph deformable mirror for circular/annulus/square laser beam compensation

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