Foreword |
Acknowledgments |
Contributors |
Introduction / Part One: |
Development of Adaptive Optics in Vision Science and Ophthalmology / David R. Williams ; Jason Porter1: |
Brief History of Aberration Correction in the Human Eye / 1.1: |
Applications of Ocular Adaptive Optics / 1.2: |
Wavefront Measurement and Correction / Part Two: |
Aberration Structure of the Human Eye / Pablo Artal ; Juan M. Bueno ; Antonio Guirao ; Pedro M. Prieto2: |
Location of Monochromatic Aberrations Within the Eye / 2.1: |
Temporal Properties of Aberrations: Accommodation and Aging / 2.3: |
Chromatic Aberrations / 2.4: |
Off-Axis Aberrations / 2.5: |
Statistics of Aberrations in Normal Populations / 2.6: |
Effects of Polarization and Scatter / 2.7: |
Wavefront Sensing and Diagnostic Uses / Geunyoung Yoon3: |
Wavefront Sensors for the Eye / 3.1: |
Optimizing a Shack-Hartmann Wavefront Sensor / 3.2: |
Calibration of a Wavefront Sensor / 3.3: |
Summary / 3.4: |
Wavefront Correctors for Vision Science / Nathan Doble ; Donald T. Miller4: |
Principal Components of an AO System / 4.1: |
Wavefront Correctors / 4.3: |
Wavefront Correctors Used in Vision Science / 4.4: |
Performance Predictions for Various Types of Wavefront Correctors / 4.5: |
Summary and Conclusion / 4.6: |
Control Algorithms / Li Chen5: |
Confi guration of Lenslets and Actuators / 5.1: |
Infl uence Function Measurement / 5.3: |
Spatial Control Command of the Wavefront Corrector / 5.4: |
Temporal Control Command of the Wavefront Corrector / 5.5: |
Adaptive Optics Software for Vision Research / Ben Singer6: |
Measuring Wavefront Slope / 6.1: |
Aberration Recovery / 6.4: |
Correcting Aberrations / 6.5: |
Application-Dependent Considerations / 6.6: |
Conclusion / 6.7: |
Adaptive Optics System Assembly and Integration / Brian J. Bauman ; Stephen K. Eisenbies7: |
First-Order Optics of the AO System / 7.1: |
Optical Alignment / 7.3: |
AO System Integration / 7.4: |
System Performance Characterization / Marcos A. van Dam8: |
Strehl Ratio / 8.1: |
Calibration Error / 8.3: |
Fitting Error / 8.4: |
Measurement and Bandwidth Error / 8.5: |
Addition of Wavefront Error Terms / 8.6: |
Retinal Imaging Applications / Part Three: |
Fundamental Properties of the Retina / Ann E. Elsner9: |
Shape of the Retina / 9.1: |
Two Blood Supplies / 9.2: |
Layers of the Fundus / 9.3: |
Spectra / 9.4: |
Light Scattering / 9.5: |
Polarization / 9.6: |
Contrast from Directly Backscattered or Multiply Scattered Light / 9.7: |
Strategies for High-Resolution Retinal Imaging / Austin Roorda ; Julian Christou9.8: |
Conventional Imaging / 10.1: |
Scanning Laser Imaging / 10.3: |
OCT Ophthalmoscope / 10.4: |
Common Issues for all AO Imaging Systems / 10.5: |
Image Postprocessing / 10.6: |
Vision Correction Applications / Part Four: |
Customized Vision Correction Devices / Ian Cox11: |
Contact Lenses / 11.1: |
Intraocular Lenses / 11.2: |
Customized Corneal Ablation / Scott M. MacRae12: |
Basics of Laser Refractive Surgery / 12.1: |
Forms of Customization / 12.3: |
The Excimer Laser Treatment / 12.4: |
Biomechanics and Variable Ablation Rate / 12.5: |
Effect of the LASIK Flap / 12.6: |
Wavefront Technology and Higher Order Aberration Correction / 12.7: |
Clinical Results of Excimer Laser Ablation / 12.8: |
From Wavefronts To Refractions / Larry N. Thibos12.9: |
Basic Terminology / 13.1: |
Goal of Refraction / 13.2: |
Foreword. |
Contributors. |
Introduction. / Part 1: |
Wavefront Measurement And Correction. / Part 2: |
Retinal Imaging Applications. / Antonio Guirao, and Pedro M. PrietoPart 3: |
Vision Correction Applications. / Part 4: |
Methods for Estimating the Monochromatic Refraction from an Aberration Map / 13.3: |
Ocular Chromatic Aberration and the Polychromatic Refraction / 13.4: |
Experimental Evaluation of Proposed Refraction Methods / 13.5: |
Visual Psychophysics With Adaptive Optics / Joseph L. Hardy ; Peter B. Delahunt ; John S. Werner14: |
Psychophysical Functions / 14.1: |
Psychophysical Methods / 14.2: |
Generating the Visual Stimulus / 14.3: |
Conclusions / 14.4: |
Design Examples. / Part 5: |
Rochester Adaptive Optics Ophthalmoscope / Heidi Hofer15: |
Optical Layout / 15.1: |
Control Algorithm / 15.3: |
Wavefront Correction Performance / 15.4: |
Improvement in Retinal Image Quality / 15.5: |
Improvement in Visual Performance / 15.6: |
Current System Limitations / 15.7: |
Design of an Adaptive Optics Scanning Laser Ophthalmoscope / Krishnakumar Venkateswaran ; Fernando Romero-Borja15.8: |
Light Delivery / 16.1: |
Raster Scanning / 16.3: |
Adaptive Optics in the SLO / 16.4: |
Optical Layout for the AOSLO / 16.5: |
Image Acquisition / 16.6: |
Software Interface for the AOSLO / 16.7: |
Calibration and Testing / 16.8: |
AO Performance Results / 16.9: |
Imaging Results / 16.10: |
Discussions on Improving Performance of the AOSLO / 16.11: |
Indiana University AO-OCT System / Yan Zhang ; Jungtae Rha ; Ravi S. Jonnal17: |
Description of the System / 17.1: |
Experimental Procedures / 17.3: |
AO Performance / 17.4: |
Example Results with AO Conventional Flood- Illuminated Imaging / 17.5: |
Example Results With AO Parallel SD-OCT Imaging / 17.6: |
Design and Testing of A Liquid Crystal Adaptive OpticsPhoropter / Abdul Awwal ; Scot Olivier17.7: |
Wavefront Sensor Selection / 18.1: |
Beacon Selection: Size and Power, SLD versus Laser Diode / 18.3: |
Wavefront Corrector Selection / 18.4: |
Wavefront Reconstruction and Control / 18.5: |
Software Interface / 18.6: |
AO Assembly, Integration, and Troubleshooting / 18.7: |
System Performance, Testing Procedures, and Calibration / 18.8: |
Results from Human Subjects / 18.9: |
Discussion / 18.10: |
Optical Society Of America'S Standards For Reporting Optical Aberrations. / 18.11: |
Glossary. |
SYMBOL TABLE. |
Index |