Written by international leaders in the field, this comprehensive reference presents a complete overview of the core principles, state-of-the-art methods, and emerging applications of adaptive optics in biological imaging. It emphasizes the use of adaptive optics to correct wavefront aberrations caused by light propagation in biological samples.
Written by international leaders in the field, this comprehensive reference presents a complete overview of the core principles, state-of-the-art methods, and emerging applications of adaptive optics in biological imaging. It emphasizes the use of adaptive optics to correct wavefront aberrations caused by light propagation in biological samples.
Joel Kubby is the Department Chair of Electrical Engineering in the Baskin School of Engineering at the University of California at Santa Cruz. His research is in the area of microelectromechanical systems (MEMS) with applications in optics, fluidics, and BioMEMS. Before joining the University of California at Santa Cruz in 2005, he was an area manager with the Wilson Center for Research and Technology and a member of technical staff in the Xerox Research Center Webster in Rochester, New York (1987-2005). Prior to Xerox, he was at the Bell Telephone Laboratories in Murray Hill, New Jersey, working in the area of scanning tunneling microscopy.
Inhaltsangabe
Principles: Principles of Wave Optics. Principles of Geometric Optics. Theory of Image Formation. Methods: Aberrations and Benefit of Their Correction in Confocal Microscopy. Specimen-Induced Geometrical Distortions. Simulation of Aberrations. Overview of Adaptive Optics in Biological Imaging. Wavefront Correctors. Adaptive Optics System Alignment and Assembly. Applications: Indirect Wavefront Sensing: Sensorless Adaptive Optics for Microscopy. Implementation of Adaptive Optics in Nonlinear Microscopy for Biological Samples Using Optimization Algorithms. AO Two-Photon Fluorescence Microscopy Using Stochastic Parallel Descent Algorithm with Zernike Polynomial Basis. Pupil-Segmentation-Based Adaptive Optics for Microscopy. Applications: Direct Wavefront Sensing: Coherence-Gated Wavefront Sensing. Adaptive Optics in Wide-Field Microscopy. Biological Imaging and Adaptive Optics in Microscopy. Adaptive Optical Microscopy Using Direct Wavefront Measurements. Index.
Principles: Principles of Wave Optics. Principles of Geometric Optics. Theory of Image Formation. Methods: Aberrations and Benefit of Their Correction in Confocal Microscopy. Specimen-Induced Geometrical Distortions. Simulation of Aberrations. Overview of Adaptive Optics in Biological Imaging. Wavefront Correctors. Adaptive Optics System Alignment and Assembly. Applications: Indirect Wavefront Sensing: Sensorless Adaptive Optics for Microscopy. Implementation of Adaptive Optics in Nonlinear Microscopy for Biological Samples Using Optimization Algorithms. AO Two-Photon Fluorescence Microscopy Using Stochastic Parallel Descent Algorithm with Zernike Polynomial Basis. Pupil-Segmentation-Based Adaptive Optics for Microscopy. Applications: Direct Wavefront Sensing: Coherence-Gated Wavefront Sensing. Adaptive Optics in Wide-Field Microscopy. Biological Imaging and Adaptive Optics in Microscopy. Adaptive Optical Microscopy Using Direct Wavefront Measurements. Index.
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