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High Resolution Optical Imaging Through the Atmosphere

High Resolution Optical Imaging Through the Atmosphere
Author: Robert W. Noyes
Publisher:
Total Pages: 57
Release: 1989
Genre: Astronomical instruments
ISBN:
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This program has concentrated on three major areas: the application of high angular resolution image reconstruction techniques to the reconstruction of solar surface features; speckle imaging of a wide range of astronomical sources; and the implementation of adaptive optics for faint object imaging. In this project, we have made substantial modifications to a technique for reconstruction of high resolution images from single short exposure solar frames, blind iterative deconvolution (IDC). We have been testing these improvements using numerical simulation data. Analysis of speckle data of the supernova SN1987A has detected a new bright source, 0.9 arcseconds south of the SN, as well as substantial structure in the region surrounding the SN. We also have new results on several Young Stellar Objects and supergiants. In the area of adaptive optics, an AOA wavefront sensor has been set up and tested using an image intensifier which increases its sensitivity by three orders of magnitude. Faint object image active tilt correction has also been tested with some important enhancements, including new highly linear and sensitive CCD quad cells developed by Cal Tech and Tektronix, and an off-the-shelf high speed 2-D tilting mirror with greatly improved specifications. The effects of only partially correcting atmospheric turbulence have been theoretically analyzed and numerically simulated.

Investigations of High Resolution Imaging Through the Earth's Atmosphere Using Speckle Interferometry

Investigations of High Resolution Imaging Through the Earth's Atmosphere Using Speckle Interferometry
Author: E. Keith Hege
Publisher:
Total Pages: 360
Release: 1987
Genre:
ISBN:
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Speckle Interferometry can now be used to produce images with spatial resolution of order 100x sharper than that normally permitted by the Earth's atmosphere. During this two year program of technique development we achieved high resolution imaging capability (wavelength dependent; 60 nrad at 410 nm) and approached that resolution in imaging a geosynchronous communications satellite utilizing the Multiple Mirror Telescope (MMT) and the Fienup method. We continued the pattern of parallel programs established in our previous AFGL work: E.D. Hege, P.A. Strittmatter and N.J. Woolf, Investigations of High Resolution Imaging Through the Earth's Atmosphere Using Speckle Interferometry, AFGL Report AFGL-TR-84-0116, 1984. Specific to this contract work, in our first year we completed a fully co-phased optical beam-combiner for implementation of the full 6.9m aperture imaging capability of the MMT. During our second year we met our final objective, by producing a 100 nrad resolution image of the geosynchronous Earth satellite FLTSATCOMl. We have proposed designs for systems to accomplish in real-time the data integrations necessary for Fienup and Knox-Thompson image reconstructions. Throughout the interval we continued work on algorithm development and seeing calibration. Our most notable achievement was applications of seeing calibration techniques and refinements of the shift-and-add method applied successfully in our scientific program of studies of red supergiants.

Lucky Exposures

Lucky Exposures
Author: Robert Nigel Tubbs
Publisher:
Total Pages:
Release: 2003
Genre:
ISBN:
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The resolution of astronomical imaging from large optical telescopes is usually limited by the blurring effects of refractive index fluctuations in the Earth's atmosphere. By taking a large number of short exposure images through the atmosphere, and then selecting, re-centring and co-adding the best images this resolution limit can be overcome. This approach has significant benefits over other techniques for high-resolution optical imaging from the ground. In particular the reference stars used for our method (the Lucky Exposurestechnique) can generally be fainter than those required for the natural guide staradaptive optics approach or those required for other speckle imaging techniques. The lowcomplexity and low instrumentation costs associated with the Lucky Exposures methodmake it appealing for medium-sized astronomical observatories. The method can provide essentially diffraction-limited I-band imaging from well-figuredground-based telescopes as large as 2.5 m diameter. The faint limiting magnitude and large isoplanatic patch size for the Lucky Exposures technique at the Nordic Optical Telescope means that 25% of the night sky is within range of a suitable reference star for I-band imaging. Typically the 1%-10% of exposures with the highest Strehl ratios are selected. When these exposures are shifted and added together, field stars in the resulting images have Strehl ratios as high as 0.26 and full width at half maximum flux (FWHM) as small as 90 milliarcseconds. Within the selected exposures the isoplanatic patch is found to be up to 60 arcseconds in diameter at 810 nm wavelength. Images within globular clusters and of multiple stars from the Nordic Optical Telescope using reference stars as faint asI 16 are presented. A new generation of CCDs (Marconi L3Vision CCDs) were used in these observations, allowing extremely low noise high frame-rate imaging with both fine pixel sampling and a relatively wide field of view. The theoretical performance of these CCDs is compared with the experimental results obtained.

Second Harmonic Generation Imaging

Second Harmonic Generation Imaging
Author: Francesco S. Pavone
Publisher: Taylor & Francis
Total Pages: 465
Release: 2016-04-19
Genre: Science
ISBN: 1439849153
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Second-harmonic generation (SHG) microscopy has shown great promise for imaging live cells and tissues, with applications in basic science, medical research, and tissue engineering. Second Harmonic Generation Imaging offers a complete guide to this optical modality, from basic principles, instrumentation, methods, and image analysis to biomedical a

Investigations of High Resolution Imaging Through the Earth's Atmosphere Using Speckle Interferometry

Investigations of High Resolution Imaging Through the Earth's Atmosphere Using Speckle Interferometry
Author: E. K. Hege
Publisher:
Total Pages: 125
Release: 1984
Genre:
ISBN:
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Speckle interferometry is a post-detection image processing technique for producing diffraction limited data using large astronomical telescopes in the presence of Earth's turbulent atmosphere which otherwise limits the imaging resolution. The Steward Observatory digital video speckle interferometry system consists of subsystems for a) video digitization of intensified, magnified, focal-plane images, b) Fourier transform (or autocorrelation) signal processing, and c) image analysis to produce the final interpreted results. Speckle interferometry has now been shown capable of yielding diffraction images for objects as faint as visual magnitude 16. Objectives of present developments are to improve a) the resolution (by using the Multiple Mirror Telescope with its 6. 9m optical aperture), b) the accuracy of the derived results (by implementing better photon detection and recording devices), and c) the efficiency and speed of the reduction algorithms which extract the information (by means of high- speed digital signal-processing hardware). The work includes a growing effect in speckle image reconstruction using a combination of amplitude processing, various phase retrieval methods, holographic methods, and shift-and-add methods. The techniques have been applied to observations of Earth-orbiting satellites, asteroids, Pluto/Charon, binary stars, bright supergiant stars, active galactic nuclei, and quasi-stellar objects (QSOs). Originator-supplied keywords: Speckle interferometry; Image reconstruction; Optical interferometry, Phased optical arrays, MMT, Diffraction limited imaging, Speckle imaging.

Superresolution Imaging Through Atmospheric Turbulence

Superresolution Imaging Through Atmospheric Turbulence
Author: David Roderick Gerwe
Publisher:
Total Pages:
Release: 1998
Genre:
ISBN:
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The angular resolution of an imaging system is ultimately limited by diffraction effects related to the size of the image pupil once imperfections such as aberrations in the optical surfaces, grainy film, and noisy electronics have been eliminated. However, because of scatterings by turbulence, aerosols, and other inhomogeneities, the atmosphere diminishes the spatial coherence of propagating radiation and reduces the achievable resolution. Improving our ability to see through the atmosphere is of unmeasurable usefulness in astronomy, satellite imaging, remote detection, and all other areas in which high-resolution is desirable.

Mimo Optical Communications and Imaging Through Turbulent Cloudy Atmosphere

Mimo Optical Communications and Imaging Through Turbulent Cloudy Atmosphere
Author: Zeinab Hajjarian Kashany
Publisher:
Total Pages: 158
Release: 2009
Genre:
ISBN:
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Since the invention of Laser in 1960, Free Space Optics has been revolutionized in every aspect. The ever-increasing demand for high data rate communications, congestion of useful parts of the radio frequency (RF) band, and the costly installation of cable for last mile communications has spurred the use of Free Space Optical (FSO) communication as a novel broadband access technique. Another application of Free Space Optics, i.e. Optical imaging is preferred over RF counter parts due to its higher resolution, faster area search rate, and ease of interpretation by a human observer. All these benefits can be achieved due to smaller wavelength of optical waves. Free Space Optics; however, has its own challenges. In contrast to radio wavelengths, the optical wavelengths are of the same order of particle size in vapor; therefore, such particles interact with laser beams and scatter them. As a result of these multiple scattering, laser beam is broadened and the energy is redistributed in space and time. Furthermore, in an optical imaging system, back-scattered light impinges on the receiver and gives rise to a steady background noise, and hence limits the contrast. Moreover, refractive index variations, across the optical wave propagation path, cause amplitude and phase fluctuations in the received wave-front. While in optical communications system, amplitude and phase fluctuations give rise to fading, optical imaging systems experience severe resolution degradation due to PSF broadening. Multiple-Input Multiple-Output (MIMO) configuration is proved to be effective in fading RF channels. Moreover, multi-spot diffuse configuration, first introduced by Yun and Kavehrad [9], has a great potential to be exploited in optical imaging. In this dissertation, we propose MIMO imaging and communications systems and investigate their performance under various atmospheric conditions. Then using restoration techniques, we try to find a solution for performance degrading atmospheric phenomena.

Diffraction-Limited Imaging with Large and Moderate Telescopes

Diffraction-Limited Imaging with Large and Moderate Telescopes
Author: Swapan K. Saha
Publisher: World Scientific
Total Pages: 633
Release: 2007
Genre: Nature
ISBN: 981270888X
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This book deals with the fundamentals of wave optics, polarization, interference, diffraction, imaging, and the origin, properties, and optical effects of turbulence in the Earth's atmosphere. Techniques developed during the last few decades to overcome atmospheric image degradation (including passive methods, speckle interferometry in particular, and active methods such as adaptive optics), are highlighted. Also discussed are high resolution sensors, image processing, and the astronomical results obtained with these techniques.

Optical Measurements for Scientists and Engineers

Optical Measurements for Scientists and Engineers
Author: Arthur McClelland
Publisher: Cambridge University Press
Total Pages: 321
Release: 2018-04-19
Genre: Science
ISBN: 1107173019
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An accessible, introductory text explaining how to select, set up and use optical spectroscopy and optical microscopy techniques.

General Theory of Light Propagation and Imaging Through the Atmosphere

General Theory of Light Propagation and Imaging Through the Atmosphere
Author: T. Stewart McKechnie
Publisher: Springer Nature
Total Pages: 694
Release: 2022-10-06
Genre: Science
ISBN: 3030988287
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This 2nd edition lays out an updated version of the general theory of light propagation and imaging through Earth’s turbulent atmosphere initially developed in the late ‘70s and ‘80s, with additional applications in the areas of laser communications and high-energy laser beam propagation. New material includes a chapter providing a comprehensive mathematical tool set for precisely characterizing image formation with the anticipated Extremely Large Telescopes (ELTS), enabling a staggering range of star image shapes and sizes; existing chapters rewritten or modified so as to supplement the mathematics with clearer physical insight through written and graphical means; a history of the development of present-day understanding of light propagation and imaging through the atmosphere as represented by the general theory described. Beginning with the rudimentary, geometrical-optics based understanding of a century ago, it describes advances made in the 1960s, including the development of the ‘Kolmogorov theory,’ the deficiencies of which undermined its credibility, but not before it had done enormous damage, such as construction of a generation of underperforming ‘light bucket’ telescopes. The general theory requires no a priori turbulence assumptions. Instead, it provides means for calculating the turbulence properties directly from readily-measurable properties of star images.