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Aperture synthesis - Wikipedia, the free encyclopedia

Aperture synthesis

From Wikipedia, the free encyclopedia

Most aperture synthesis interferometers use the rotation of the Earth to increase the number of baseline orientations included in an observation. In this example with the Earth represented as a grey sphere, the baseline between telescope A and telescope B changes angle with time as viewed from the radio source as the Earth rotates. Taking data at different times thus provides measurements with different telescope separations.
Most aperture synthesis interferometers use the rotation of the Earth to increase the number of baseline orientations included in an observation. In this example with the Earth represented as a grey sphere, the baseline between telescope A and telescope B changes angle with time as viewed from the radio source as the Earth rotates. Taking data at different times thus provides measurements with different telescope separations.

Aperture synthesis or synthesis imaging is a type of interferometry that mixes signals from a collection of telescopes to produce images having the same angular resolution as an instrument the size of the entire collection. At each separation and orientation, the lobe-pattern of the interferometer produces an output which is one component of the Fourier transform of the spatial distribution of the brightness of the observed object. The image (or "map") of the source is produced from these measurements. Astronomical interferometers are commonly used for high-resolution optical, infrared, submillimetre and radio astronomy observations. In order to produce a high quality image, a large number of different separations between different telescopes are required (the projected separation between any two telescopes as seen from the radio source is called a baseline) - as many different baselines as possible are required in order to get a good quality image. The number of baselines (nb) for an array of n telescopes is given by nb=(n2- n)/2. For example the Very Large Array has 27 telescopes giving 351 independent baselines at once, and can give high quality images. In contrast, the largest optical arrays currently have only 6 telescopes, giving poorer image quality from the 15 baselines between the telescopes. Most aperture synthesis interferometers use the rotation of the Earth to increase the number of different baselines included in an observation (see diagram on right). Taking data at different times provides measurements with different telescope separations and angles without the need for buying additional telescopes or moving the telescopes manually, as the rotation of the Earth moves the telescopes to new baselines. The use of Earth rotation was discussed in detail in the 1950 paper A preliminary survey of the radio stars in the Northern Hemisphere. Some instruments use artificial rotation of the interferometer array instead of Earth rotation, such as in aperture masking interferometry.

Aperture synthesis imaging was first developed at radio wavelengths by Martin Ryle and coworkers from the Radio Astronomy Group at Cambridge University. Martin Ryle and Tony Hewish jointly received a Nobel Prize for this and other contributions to the development of radio interferometry. The radio astronomy group in Cambridge went on to found the Mullard Radio Astronomy Observatory near Cambridge in the 1950s. During the late 1960s and early 70s, as computers (such as the Titan) became available capable of handling the computationally-intensive Fourier Transform inversions required, they used aperture synthesis to synthesize first a 'One-Mile' and later a '5km' effective aperture using the One-Mile and Ryle telescopes respectively. The technique was subsequently further developed in Very Long Baseline Interferometry to obtain baselines of thousands of km. Aperture synthesis is also used by a type of radar system known as synthetic aperture radar, and even in optical telescopes.

Originally it was thought necessary to make measurements at essentially every baseline length and orientation out to some maximum: such a fully-sampled Fourier transform formally contains the information exactly equivalent to the image from a conventional telescope with an aperture diameter equal to the maximum baseline, hence the name aperture synthesis. It was rapidly discovered that in many cases useful images could be made with a relatively sparse and irregular set of baselines, especially with the help of non-linear deconvolution algorithms such as the maximum entropy method. The alternative name synthesis imaging acknowledges the shift in emphasis from trying to synthesise the complete aperture (allowing image reconstruction by Fourier transform) to trying to synthesise the image from whatever data available, using powerful but computationally expensive algorithms.

Aperture synthesis imaging has been demonstrated in the optical and infrared, first using aperture masking interferometry and later using arrays of separated telescopes. As of 2006 four optical/infrared interferometer arrays have released aperture synthesis images (COAST, NPOI, IOTA and ISI).

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(ISAR)

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