Introduction to Adaptive Optics for Vision Science
Sorozatcím: Multidisciplinary and Applied Optics;
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A termék adatai:
- Kiadás sorszáma 1
- Kiadó CRC Press
- Megjelenés dátuma 2021. január 1.
- ISBN 9781498761529
- Kötéstípus Keménykötés
- Terjedelem200 oldal
- Méret 234x156 mm
- Nyelv angol
- Illusztrációk 40 Illustrations, black & white; 35 Illustrations, color 0
Kategóriák
Rövid leírás:
This book provides an introduction to adaptive optics as applied to vision science. The aim is to make the topics tangible for someone completely new to the field, regardless of their discipline.
TöbbHosszú leírás:
First used in astronomy to correct for blur in ground-based telescopes due to atmospheric turbulence, adaptive optics is now used in vision science to provide diffraction limited imaging of individual retinal cells and to determine the effect of ocular aberrations on the visual acuity and accommodation control. This book provides an introduction to adaptive optics as applied to vision science. The aim is to make the topics tangible for someone completely new to the field, regardless of their discipline. It covers all main concepts including how to develop a basic system from the ground up and also includes information on the current state-of-the-art systems.
TöbbTartalomjegyzék:
Introduction. Origins of Adaptive Optics. Astronomy and Adaptive Optics. Adaptive Optics and the Eye. The Eye as an Adaptive Optics System. Imperfections in the Eye’s Adaptive Optics System. History of Adaptive Optics Applied to the Eye. Summary. Chapter 2: Designing and Building a System for Vision Science. Optical Design of a Basic System. The Importance of the Pupil. Relay Telescopes. Optical Components. Field of View and Light Loss. Removing Reflections. Light Sources. Choosing the wavelength. Choosing the type of light source. Safety Considerations. Mounting and Aligning a System. Mounting the Optics. Aligning the System. Stabilising the Subject. Summary. Chapter 3: Measuring the Eye’s Aberrations. Description of the Eye’s Aberrations. Rays to Wavefronts. Zernike Polynomials. Temporal Properties. Shack-Hartmann Sensor. How it Works. Determining Spot Locations. Choosing the Shack-Hartmann Components. Obtaining the Zernike Coefficients. Beyond Conventional Shack-Hartmanns. Other Types of Sensors. Curvature Sensor. Pyramid Sensor. Wavefront Sensorless Systems. Summary. Chapter 4: Correcting the Eye’s Aberrations. How Correctors Work. Phase Conjugation. Factors to Consider when Choosing a Corrector. Deformable Mirrors. Segmented. Continuous. Liquid Crystals. Other Types of Corrector. Correctorless Systems. Increasing System Correction Capabilities. Removing Defocus and Astigmatism. Stroke Amplification. Summary. Chapter 5: Controlling an Adaptive Optics System. Open-Loop versus Closed-Loop Systems. Obtaining the Corrector Signals. Via the Slopes. Via the Zernike Polynomials. Time Delays and their Consequence. Origin of Time Delays. Instability. The Integral Controller. Why it is Used. Doing a full Correction. Manipulating the Zernike Coefficients. Measuring System Performance. Writing the Software. Summary. Chapter 6: Retinal Imaging with Adaptive Optics. Anatomy of the Retina. Instruments and their Application. Flood Illumination Ophthalmoscope. Scanning Laser Ophthalmoscope. Optical Coherence Tomographer. Multiconjugate Systems. Multimodal Instruments. Summary. Chapter 7: Vision Manipulation with Adaptive Optics. Limits of Visual Acuity. Accommodation. Dual Channel Monocular System. Binocular System. Visual Simulation and Blur Adaptation. Summary. Chapter 8: The Future. Summary of what we can Currently Achieve. Limits and how they can be Overcome. Appendix. Laser Safety calculationsTroubleshooting.
Több
Introduction to Adaptive Optics for Vision Science
54 463 Ft
49 017 Ft
Introduction to Adaptive Optics for Vision Science
35 831 Ft
32 248 Ft
