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M C Roggemann

Showing results (1-10 of 30) with videos related to

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Applied Optics|November 19, 2010
Photon-noise limits to the detection of the closure phase in optical interferometryM C Roggemann
Applied Optics|August 14, 2010
Limited degree-of-freedom adaptive optics and image reconstructionM C Roggemann
Applied Optics|April 10, 1997
Model-based image reconstruction by means of a constrained least-squares solutionM C Roggemann, D W Tyler
Applied Optics|February 21, 2008
Algorithm to increase the largest aberration that can be reconstructed from Hartmann sensor measurementsM C Roggemann, T J Schulz
Applied Optics|November 2, 2010
Signal-to-noise comparison of deconvolution from wave-front sensing with traditional linear and speckle image reconstructionB M Welsh, M C Roggemann
Applied Optics|October 12, 2010
Signal-to-noise ratio for astronomical imaging by deconvolution from wave-front sensingM C Roggemann, B M Welsh
Applied Optics|November 2, 2010
Noise reduction in adaptive-optics imagery with the use of support constraintsC L Matson, M C Roggemann
Journal of the Optical Society of America. A, Optics, Image Science, and Vision|January 21, 2000
Branch-point reconstruction in laser beam projection through turbulence with finite-degree-of-freedom phase-only wave-front correctionM C Roggemann, A C Koivunen
Applied Optics|February 21, 2008
Two-deformable-mirror concept for correcting scintillation effects in laser beam projection through the turbulent atmosphereM C Roggemann, D J Lee
Applied Optics|October 12, 2010
Biased estimators and object-spectrum estimation in the method of deconvolution from wave-front sensingM C Roggemann, B M Welsh, J Devey
Pageof 3

Showing results (1-10 of 30) with videos related to

Sort By:
Pageof 3
Applied Optics|November 19, 2010
Photon-noise limits to the detection of the closure phase in optical interferometryM C Roggemann
Applied Optics|August 14, 2010
Limited degree-of-freedom adaptive optics and image reconstructionM C Roggemann
Applied Optics|April 10, 1997
Model-based image reconstruction by means of a constrained least-squares solutionM C Roggemann, D W Tyler
Applied Optics|February 21, 2008
Algorithm to increase the largest aberration that can be reconstructed from Hartmann sensor measurementsM C Roggemann, T J Schulz
Applied Optics|November 2, 2010
Signal-to-noise comparison of deconvolution from wave-front sensing with traditional linear and speckle image reconstructionB M Welsh, M C Roggemann
Applied Optics|October 12, 2010
Signal-to-noise ratio for astronomical imaging by deconvolution from wave-front sensingM C Roggemann, B M Welsh
Applied Optics|November 2, 2010
Noise reduction in adaptive-optics imagery with the use of support constraintsC L Matson, M C Roggemann
Journal of the Optical Society of America. A, Optics, Image Science, and Vision|January 21, 2000
Branch-point reconstruction in laser beam projection through turbulence with finite-degree-of-freedom phase-only wave-front correctionM C Roggemann, A C Koivunen
Applied Optics|February 21, 2008
Two-deformable-mirror concept for correcting scintillation effects in laser beam projection through the turbulent atmosphereM C Roggemann, D J Lee
Applied Optics|October 12, 2010
Biased estimators and object-spectrum estimation in the method of deconvolution from wave-front sensingM C Roggemann, B M Welsh, J Devey
Pageof 3