Wavefront Sensing Applications of Binary Optics
Wavefront Sensing Applications of Binary Optics

Author:

Publisher:

Published: 1994

Total Pages: 5

ISBN-13:

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The advent of micro- or binary optics technology has made possible the fabrication of a variety of new optical devices. Optical fabrication is no longer limited by surfaces that can be made by grinding and polishing, or even diamond turning. In fact, optics with no symmetry, no smooth surfaces, and that perform multiple functions can be readily fabricated. While these optics have a large number of applications, they are extremely useful for systems that require arrays of small optics or aperture multiplexing, since these are fabricated using computer controlled photo-lithography and etching processes. We have applied binary optics technology to construct various wavefront sensing using four mask processes to create 16 level optics. They are binary in the sense that they use discrete phase levels, not in the sense of using only two levels (they might more properly be called digital optics). We have found that 16 levels is adequate for most systems, giving greater than 99% of efficiency.

Introduction to Wavefront Sensors
Introduction to Wavefront Sensors

Author: Joseph M. Geary

Publisher: SPIE Press

Published: 1995

Total Pages: 188

ISBN-13: 9780819417015

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This is a practical book on wavefront sensing. Emphasis is on principles and techniques, rather than detailed mathematical analysis of such systems. The goal is to provide the reader with a qualitative understanding of wavefront sensor operation.

A Multi-tiered Wavefront Sensor Using Binary Optics
A Multi-tiered Wavefront Sensor Using Binary Optics

Author:

Publisher:

Published: 1994

Total Pages: 14

ISBN-13:

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Wavefront sensors have been used to make measurements in fluid- dynamics and for closed loop control of adaptive optics. In most common Shack-Hartmann wavefront wavefront sensors, the light is broken up into series of rectangular or hexagonal apertures that divide the light into a series of focal spots. The position of these focal spots is used to determine the wavefront slopes over each subaperture. Using binary optics technology, we have developed a hierarchical or fractal wavefront sensor that divides the subapertures up on a more optimal fashion. We have demonstrated this concept for up to four tiers and developed the wavefront reconstruction methods for both segmented adaptive optics and continous wavefront measurement.

Conference on Binary Optics
Conference on Binary Optics

Author: Helen J. Cole

Publisher:

Published: 1993

Total Pages: 448

ISBN-13:

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The papers herein were presented at the Conference on Binary Optics held in Huntsville, AL, February 23-25, 1993. The papers were presented according to subject as follows: Modeling and Design, Fabrication, and Applications. Invited papers and tutorial viewgraphs presented on these subjects are included.

Specialized Wavefront Sensors for Adaptive Optics
Specialized Wavefront Sensors for Adaptive Optics

Author:

Publisher:

Published: 1995

Total Pages: 10

ISBN-13:

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The performance of an adaptive optical system is strongly dependent upon correctly measuring the wavefront of the arriving light. The most common wavefront measurement techniques used to date are the shearing interferometer and the Shack-Hartmann sensor. Shack-Hartmann sensors rely on the use of lenslet arrays to sample the aperture appropriately. These have traditionally been constructed using ULM or step and repeat technology, and more recently with binary optics technology. Diffractive optics fabrication methodology can be used to remove some of the limitations of the previous technologies and can allow for low-cost production of sophisticated elements. We have investigated several different specialized wavefront sensor configurations using both Shack-Hartmann and shearing interferometer principles. We have taken advantage of the arbitrary nature of these elements to match pupil shapes of detector and telescope aperture and to introduce magnification between the lenslet array and the detector. We have fabricated elements that facilitate matching the sampling to the current atmospheric conditions. The sensors were designed using a far-field diffraction model and a photolithography layout program. They were fabricated using photolithography and RIE etching. Several different designs will be presented with some experimental results from a small-scale adaptive optics brass-board.

Adaptive Optics Engineering Handbook
Adaptive Optics Engineering Handbook

Author: Robert Tyson

Publisher: CRC Press

Published: 1999-11-10

Total Pages: 368

ISBN-13: 9780203908686

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This handbook supplies analytical tools for the design and development of adaptive optics systems to enhance their ability to adjust for atmospheric turbulence, optical fabrication errors, thermally induced distortions, and laser device aberrations. It provides recommendations for selecting, testing and installing a wavefront compensation system.

Microsensors
Microsensors

Author: Oleg Minin

Publisher: BoD – Books on Demand

Published: 2011-06-09

Total Pages: 310

ISBN-13: 9533071702

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This book is planned to publish with an objective to provide a state-of-art reference book in the area of microsensors for engineers, scientists, applied physicists and post-graduate students. Also the aim of the book is the continuous and timely dissemination of new and innovative research and developments in microsensors. This reference book is a collection of 13 chapters characterized in 4 parts: magnetic sensors, chemical, optical microsensors and applications. This book provides an overview of resonant magnetic field microsensors based on MEMS, optical microsensors, the main design and fabrication problems of miniature sensors of physical, chemical and biochemical microsensors, chemical microsensors with ordered nanostructures, surface-enhanced Raman scattering microsensors based on hybrid nanoparticles, etc. Several interesting applications area are also discusses in the book like MEMS gyroscopes for consumer and industrial applications, microsensors for non invasive imaging in experimental biology, a heat flux microsensor for direct measurements in plasma surface interactions and so on.

Adaptive Optics for Astronomical Telescopes
Adaptive Optics for Astronomical Telescopes

Author: John W. Hardy

Publisher: Oxford Optical and Imaging Sci

Published: 1998

Total Pages: 452

ISBN-13: 9780195090192

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This book by one of the leaders in adaptive optics covers the fundamental theory and then describes in detail how this technology can be applied to large ground-based telescopes to compensate for the effects of atmospheric turbulence. It includes information on basic adaptive optics components and technology, and has chapters devoted to atmospheric turbulence, optical image structure, laser beacons, and overall system design. The chapter on system design is particularly detailed and includes performance estimation and optimization. Combining a clear discussion of physical principles with numerous real-world examples, this book will be a valuable resource for all graduate students and researchers in astronomy and optics.

Micro- and Nanotechnology for Space Systems
Micro- and Nanotechnology for Space Systems

Author: Henry Helvajian

Publisher: AIAA

Published: 1997

Total Pages: 144

ISBN-13: 9781884989049

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Microengineering and microelectromechanical systems (MEMS) are a subject of considerable current interest involving research and development throughout the world. This first volume of a series on this topic reviews and evaluates micro- and nanotechnologies applicable to U.S. Air Force and commercial space systems. It introduces the concept of application-specific integrated microinstrument (ASIM), an intelligent microinstrument.