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VISTA (telescope)

July 06, 2023

The VISTA (Visible and Infrared Survey Telescope for Astronomy) is a wide-field reflecting telescope with a 4.1 metre mirror, located at the Paranal Observatory in Chile. It is operated by the European Southern Observatory and started science operations in December 2009. VISTA was conceived and developed by a consortium of universities in the United Kingdom led by Queen Mary University of London[1] and became an in-kind contribution to ESO as part of the UK's accession agreement, with the subscription paid by the UK Science and Technology Facilities Council (STFC).[2]

VISTA
VISTA (Credit: ESO)
Alternative namesVisible and Infrared Survey Telescope for Astronomy
Part ofParanal Observatory 
Location(s)Atacama Desert
Coordinates24°36′57″S 70°23′51″W / 24.615833333333°S 70.3975°W / -24.615833333333; -70.3975
OrganizationEuropean Southern Observatory 
Altitude2,518 m (8,261 ft)
Wavelength0.85 μm (350 THz)–2.3 μm (130 THz)
First light1 December 2009 
Telescope styleRitchey–Chrétien telescope 
Diameter4.1 m (13 ft 5 in)
Secondary diameter1.24 m (4 ft 1 in)
Angular resolution0.34 arcsecond 
Focal length12.1 m (39 ft 8 in)
Mountingaltazimuth mount 
Websitewww.vista.ac.uk
Location of VISTA
  Related media on Commons
[edit on Wikidata]

VISTA is a survey telescope working at infrared wavelengths, and is by far the largest telescope in the world dedicated to surveying the sky at near-infrared wavelengths.[2] The telescope has only one instrument: VIRCAM, the Vista InfraRed CAMera. This is a 3-tonne camera containing 16 special detectors sensitive to infrared light, with a combined total of 67 million pixels.[3]

A second-generation instrument called 4MOST, a 2400-object fibre-fed multi-object spectrograph, is under development for installation around 2022.

Observing at wavelengths longer than those visible to the human eye allows VISTA to study objects that may be almost impossible to see in visible light because they are cool, obscured by dust clouds or because their light has been stretched towards redder wavelengths by the expansion of space during the light's long journey from the early Universe.[2]

The project

VISTA is carrying out surveys of the southern sky at near infrared wavelengths. Such surveys should both return direct scientific results and help select objects for further studies with larger telescopes. There are two related projects: the Wide Field Camera (WFCAM) on the United Kingdom Infrared Telescope in Hawaii carries out infrared surveys of the northern sky, and the VLT Survey Telescope in Chile carries out surveys of the southern sky in visible light.

 
Early morning shot shows VISTA in front of the Paranal summit.
 
VISTA at night (Credit: ESO).
 
VISTA exposes high-speed antics of young stars in the Orion Nebula
 
One of the first images released made by the VISTA telescope depicting the Flame Nebula and the neighbouring Horsehead Nebula
 
The Fornax Galaxy Cluster as seen by VISTA
 
VISTA stares into the Blue Lagoon

The project was initiated in 1999 by the VISTA Consortium[4] of 18 universities in the United Kingdom (UK), which obtained funding from a joint infrastructure fund of the UK government and further funding from the Particle Physics and Astronomy Research Council. The project is valued at €46M (£36M).[5][6]

After considering several sites in Chile, the consortium chose the Paranal Observatory of the European Southern Observatory (ESO), namely a secondary peak 1,500 m from the Very Large Telescope (VLT). The consortium selected the UK Astronomy Technology Centre to take technical responsibility for design and construction of the telescope. Two years later – in 2002 – the UK joined ESO, and VISTA became an in-kind component of the joining fee. The consortium then completed the construction and commissioning of the telescope, and the Science and Technology Facilities Council – on behalf of the UK – handed over the telescope to ESO, for the benefit of astronomers in all its member countries.[3][7]

VISTA Surveys

The scientific goals of the VISTA surveys, which started in 2010, include many of the most exciting problems in astrophysics today, ranging from the nature of dark energy to the threat of near-Earth asteroids.[2]

There are six large public surveys being conducted by VISTA: UltraVISTA, VISTA Kilo-Degree Infrared Galaxy Survey (VIKING), VISTA Magellanic Survey (VMC), VISTA Variables in the Via Lactea (VVV), VISTA Hemisphere Survey (VHS), VISTA Deep Extragalactic Observations Survey (VIDEO). These will take up the majority of the observing time in the telescope's first five years of operations. The surveys cover different areas of sky to different depths to attack a wide range of scientific questions.[8] More information about each of the VISTA surveys can be found on the ESO — VISTA Surveys website and in the webpage.

Science with VISTA

Because VISTA is a large telescope that also has a large field of view it can both detect faint sources and also cover wide areas of sky quickly. Each VISTA image captures a section of sky covering about ten times the area of the full Moon and it will be able to detect and catalogue objects over the whole southern sky with a sensitivity that is forty times greater than that achieved with earlier infrared sky surveys such as the highly successful Two Micron All-Sky Survey. This jump in observational power — comparable to the step in sensitivity from the unaided eye to Galileo's first telescope — will reveal vast numbers of new objects and allow the creation of far more complete inventories of rare and exotic objects in the southern sky.[3]

VISTA observations will support research in many astronomical areas. Within our galaxy, VISTA is expected to find many new brown dwarf stars and be able to test ideas about the nature of dark matter. One VISTA survey is designed to find and study huge numbers of variable stars in our galaxy by taking images of the same areas of sky at different times. Using VISTA data astronomers will be able to map the structure of our galaxy in much more detail than ever before. Another VISTA survey will study our neighbouring small galaxies, the Magellanic Clouds, and their surroundings. VISTA data will also be used to create a 3D map of about 5% of the entire observable Universe. Further out, VISTA will be a powerful tool for discovering remote quasars and studying the evolution of galaxies and clusters of galaxies. It will help to probe the nature of dark energy by finding very distant galaxy clusters.[9]Infrared measurements from the VVV astronomical survey have been employed to bolster the cosmic distance ladder, namely by providing reliable distances to star clusters and Cepheid variable stars.[10][11]

Selection of VISTA Images

The first released image (left) shows the Flame Nebula (NGC 2024), a spectacular star-forming cloud of gas and dust in the familiar constellation of Orion (the Hunter) and its surroundings. In visible light the core of the object is hidden behind thick clouds of dust, but the VISTA image, taken at infrared wavelengths, can penetrate the murk and reveal the cluster of hot young stars hidden within. The wide field of view of the VISTA camera also captures the glow of NGC 2023 and the ghostly form of the famous Horsehead Nebula.[3]

Other stunning nebula images include the VISTA views of the Orion Nebula and the Lagoon Nebula. The picture on the right is a wide-field view of the Orion Nebula (Messier 42), lying about 1350 light-years from Earth, taken with the VISTA infrared survey telescope at ESO's Paranal Observatory in Chile. The telescope's huge field of view allows the whole nebula and its surroundings to be imaged in a single picture and its infrared vision also means that it can peer deep into the normally hidden dusty regions and reveal the curious antics of the very active young stars buried there.[12] An image of the "Blue Lagoon" is seen on the left (below the Flame Nebula picture) — it is an infrared image taken as part of the VVV survey. It shows the stellar nursery called the Lagoon Nebula (also known as Messier 8), which lies about 4000–5000 light-years away in the constellation of Sagittarius (the Archer).[13]

 
The three-tonne VISTA infrared camera hangs in the air in front of the telescope.
 
This picture shows how six different "paw print" exposures are combined to make one "tile".
 
The 4.1 m main VISTA mirror undergoing optical testing.

VISTA can also stare far beyond our galaxy. In the example on the left (below the image of the Orion Nebula) the telescope took a family photograph of a cluster of galaxies in the constellation of Fornax (the Chemical Furnace). The wide field allows many galaxies to be captured in a single image including the striking barred-spiral NGC 1365 and the big elliptical galaxy NGC 1399. The image was constructed from images taken through Z, J and Ks filters in the near-infrared part of the spectrum and has captured many of the cluster members in a single image. At the lower-right is the elegant barred-spiral galaxy NGC 1365 and to the left the big elliptical NGC 1399, surrounded by a swarm of faint globular clusters. The image is about 1 degree by 1.5 degrees in extent and the total exposure time was 25 minutes.[14]

Technical details

Telescope Design

 
Inside its enclosure (Credit: ESO)

The objective to repeatedly image large areas of sky at seeing-limited resolution led to a unique optical design. The primary mirror is a concave hyperboloid with 4.1 m diameter and about f/1 focal ratio. The mirror has a meniscus shape of 17 cm thickness with a central 1.2 m hole to accommodate the camera at the Cassegrain focus. It was cast from Zerodur by Schott in Germany and subsequently polished and figured by LZOS, Moscow. It is the largest mirror of this shape and of such short focal ratio; polishing it took 2 years, which was longer than anticipated.[6][15] The mirror is supported by a number of actuators (81 on the back and 24 around the edge), which allow its shape to be controlled by computers.

The secondary mirror is a convex hyperboloid of 1.24 m diameter. The combination of the two hyperbolic mirrors makes this a quasi-Ritchey-Chrétien design. The combined focal ratio is about f/3, but the image quality of the two mirrors alone would be poor.[16] The secondary mirror is mounted on a hexapod support so that its position, tip, and tilt are also computer-controlled.

The infrared camera was built by a consortium composed of the Rutherford Appleton Laboratory, the UK Astronomy Technology Centre, and Durham University,[17] and is the world's largest at almost three tonnes. Telescope and camera form a single optical design, as the three field correction lenses in the camera are essential for the projection of a focussed image of the sky on the detectors.

For an infrared camera, it is also vital to block heat radiation from the telescope and dome. This is accomplished by a sequence of cooled baffles in front of the field corrector lenses. Also, the secondary mirror is undersized to avoid edge detectors viewing warm structure outside the edge of the primary; this means the aperture seen by any point in the image plane is 3.7 m. This design requires the camera's vacuum cryostat – which cools the detectors as well as the baffles – to be more than 2 m long, with a front window of 95  cm diameter. A filter wheel just in front of the detectors allows the selection of a particular infrared wavelength range.[18]

Over an area corresponding to 1.65° diameter on the sky, the image plane has 16 arrays of infrared detectors,[16] each array with 2048x2048 pixels of 20 μm size, corresponding on average to 0.34" on the sky.[18] The focal length of 12.1 m combines with the baffled aperture of 3.7 m to a focal ratio of 3.26. The arrays are separated by 90% of their width in one direction and by just under 50% their width in the other direction. A single exposure therefore corresponds to a patchy "paw print" on the sky. To fill the gaps and obtain a conventional image at least six shifted paw prints have to be combined into a "tile", which then is 1.5° by 1.0°. The image plane of the camera also has wave front detectors used to control the shape of the primary mirror and the position and tip/tilt of the secondary mirror (active optics). This compensates for flexure and ensures a focused image at all altitudes.[18]

The hilltop where VISTA is located was flattened to erect the enclosure building and an auxiliary building. The auxiliary building includes facilities to wash, strip, and coat the primary mirror. The coating can be in aluminium, or normally in protected silver for better infrared performance.[15] The fixed base of the enclosure supports the rotating steel dome. Two sliding doors form the dome slit. Further dome panels can be opened to increase ventilation, and a wind shield can be deployed to close parts of the slit. During the day, the dome is kept at night-time temperature.[19]

Operation and data flow

 
VISTA gigapixel mosaic of the central parts of the Milky Way.[20]

On completion, the telescope was handed over to ESO, which has selected six public surveys for VISTA, taking up 75% of the available observing time. Proprietary surveys to occupy the remaining time are proposed to ESO, which will schedule approved proposals for observation.[21] The observations are carried out by operators at the Paranal Observatory, remotely from the VLT control building.[19]

The combination of the large detector array and the short and frequent exposures necessary at infrared wavelengths results in a high data rate of 200–300 GB per night. A quick-look reduction at the Paranal Observatory will be used for daily quality control, but the principal data flow is to transfer the raw data to ESO headquarters in Garching near Munich, Germany, for ingestion into the data archive. Users can extract paw prints (see above) and pass them through a calibration pipeline to remove instrumental artefacts and calibrate the astrometry and photometry. The archive data will also be copied to the VISTA Data Flow System in the UK, where the paw prints will be combined into tiles (see above) and where source catalogues will be prepared from these.[19][21]

See also

Notes and references

  1. ^ "First stunning images captured by Queen Mary led VISTA telescope". Queen Mary, University of London. 2009-12-11. Retrieved 2011-08-03.
  2. ^ a b c d "The ESO Survey Telescopes". ESO. Retrieved 2011-08-03.
  3. ^ a b c d "VISTA: Pioneering New Survey Telescope Starts Work". ESO. 2009-12-11. Retrieved 2011-08-03.
  4. ^ The VISTA consortium consists of Queen Mary, University of London as consortium leader, Queen's University Belfast, University of Birmingham, University of Cambridge, Cardiff University, University of Central Lancashire, Durham University, University of Edinburgh, University of Hertfordshire, Keele University, University of Leicester, Liverpool John Moores University, University of Nottingham, University of Oxford, University of St Andrews, University of Southampton, University of Sussex, and University College London.
  5. ^ "Big Red Eye is Ready: VISTA Camera Shipped to Paranal". ESO. 2007-01-17. Retrieved 2011-08-03.
  6. ^ a b "Survey telescope nears completion". Royal Observatory Edinburgh. 2008-04-17. Retrieved 2011-08-03.
  7. ^ "United Kingdom to Join ESO on July 1, 2002: ESO and PPARC Councils Endorse Terms of Accession". ESO. 2001-12-05. Retrieved 2011-08-03.
  8. ^ "The VISTA surveys". ESO. Retrieved 2011-08-03.
  9. ^ . ESO. Archived from the original on 2011-11-27. Retrieved 2011-08-03.
  10. ^ Majaess, Daniel; Turner, David; Moni Bidin, Christian; Mauro, Francesco; Geisler, Douglas; Gieren, Wolfgang; Minniti, Dante; Chené, André-Nicolas; Lucas, Philip; Borissova, Jura; Kurtev, Radostn; Dékány, Istvan; Saito, Roberto K. (2011). New Evidence Supporting Membership for TW Nor in Lyngå 6 and the Centaurus Spiral Arm, ApJ, 741, 2
  11. ^ Majaess, D.; Turner, D.; Moni Bidin, C.; Geisler, D.; Borissova, J.; Minniti, D.; Bonatto, C.; Gieren, W.; Carraro, G.; Kurtev, R.; Mauro, F.; Chené, A.-N.; Forbes, D.; Lucas, P.; Dékány, I.; Saito, R. K.; Soto, M. (2012). Strengthening the open cluster distance scale via VVV photometry, A&A, 537
  12. ^ "Orion in a New Light: VISTA exposes high-speed antics of young stars". ESO. Retrieved 2011-08-03.
  13. ^ "VISTA Stares Deeply into the Blue Lagoon". ESO. Retrieved 2011-08-03.
  14. ^ "The Fornax Cluster of Galaxies". ESO. Retrieved 2011-08-03.
  15. ^ a b Emerson, J., McPherson, A., Sutherland, W. (2006). Visible and Infrared Survey Telescope for Astronomy: Progress report. The Messenger, 126. p.41.
  16. ^ a b "VISTA". ESO. Retrieved 2011-08-03.
  17. ^ "The VISTA camera". ESO. Retrieved 2011-08-03.
  18. ^ a b c Emerson, J.P., Sutherland, W.J., McPherson, A.M., Craig, S.C., Dalton, G.B., Ward, A.K. (2005). The Visible & Infrared Survey Telescope for Astronomy. The Messenger, 117. p.27
  19. ^ a b c Craig, S.C., McPherson, A. (2003). "VISTA project overview 2011-07-21 at the Wayback Machine". UK Astronomy Technology Centre. Retrieved 23 September 2009.
  20. ^ "84 Million Stars and Counting". ESO Press Release. Retrieved 29 October 2012.
  21. ^ a b VISTA web site

Further reading

External links

 
Wikimedia Commons has media related to VISTA (telescope).

July 06, 2023
vista, telescope, vista, visible, infrared, survey, telescope, astronomy, wide, field, reflecting, telescope, with, metre, mirror, located, paranal, observatory, chile, operated, european, southern, observatory, started, science, operations, december, 2009, vi. The VISTA Visible and Infrared Survey Telescope for Astronomy is a wide field reflecting telescope with a 4 1 metre mirror located at the Paranal Observatory in Chile It is operated by the European Southern Observatory and started science operations in December 2009 VISTA was conceived and developed by a consortium of universities in the United Kingdom led by Queen Mary University of London 1 and became an in kind contribution to ESO as part of the UK s accession agreement with the subscription paid by the UK Science and Technology Facilities Council STFC 2 VISTAVISTA Credit ESO Alternative namesVisible and Infrared Survey Telescope for AstronomyPart ofParanal Observatory Location s Atacama DesertCoordinates24 36 57 S 70 23 51 W 24 615833333333 S 70 3975 W 24 615833333333 70 3975OrganizationEuropean Southern Observatory Altitude2 518 m 8 261 ft Wavelength0 85 mm 350 THz 2 3 mm 130 THz First light1 December 2009 Telescope styleRitchey Chretien telescope Diameter4 1 m 13 ft 5 in Secondary diameter1 24 m 4 ft 1 in Angular resolution0 34 arcsecond Focal length12 1 m 39 ft 8 in Mountingaltazimuth mount Websitewww wbr vista wbr ac wbr ukLocation of VISTA Related media on Commons edit on Wikidata VISTA is a survey telescope working at infrared wavelengths and is by far the largest telescope in the world dedicated to surveying the sky at near infrared wavelengths 2 The telescope has only one instrument VIRCAM the Vista InfraRed CAMera This is a 3 tonne camera containing 16 special detectors sensitive to infrared light with a combined total of 67 million pixels 3 A second generation instrument called 4MOST a 2400 object fibre fed multi object spectrograph is under development for installation around 2022 Observing at wavelengths longer than those visible to the human eye allows VISTA to study objects that may be almost impossible to see in visible light because they are cool obscured by dust clouds or because their light has been stretched towards redder wavelengths by the expansion of space during the light s long journey from the early Universe 2 Contents 1 The project 2 VISTA Surveys 3 Science with VISTA 4 Selection of VISTA Images 5 Technical details 5 1 Telescope Design 5 2 Operation and data flow 6 See also 7 Notes and references 8 Further reading 9 External linksThe project EditVISTA is carrying out surveys of the southern sky at near infrared wavelengths Such surveys should both return direct scientific results and help select objects for further studies with larger telescopes There are two related projects the Wide Field Camera WFCAM on the United Kingdom Infrared Telescope in Hawaii carries out infrared surveys of the northern sky and the VLT Survey Telescope in Chile carries out surveys of the southern sky in visible light Early morning shot shows VISTA in front of the Paranal summit VISTA at night Credit ESO VISTA exposes high speed antics of young stars in the Orion Nebula One of the first images released made by the VISTA telescope depicting the Flame Nebula and the neighbouring Horsehead Nebula The Fornax Galaxy Cluster as seen by VISTA VISTA stares into the Blue Lagoon The project was initiated in 1999 by the VISTA Consortium 4 of 18 universities in the United Kingdom UK which obtained funding from a joint infrastructure fund of the UK government and further funding from the Particle Physics and Astronomy Research Council The project is valued at 46M 36M 5 6 After considering several sites in Chile the consortium chose the Paranal Observatory of the European Southern Observatory ESO namely a secondary peak 1 500 m from the Very Large Telescope VLT The consortium selected the UK Astronomy Technology Centre to take technical responsibility for design and construction of the telescope Two years later in 2002 the UK joined ESO and VISTA became an in kind component of the joining fee The consortium then completed the construction and commissioning of the telescope and the Science and Technology Facilities Council on behalf of the UK handed over the telescope to ESO for the benefit of astronomers in all its member countries 3 7 VISTA Surveys EditThe scientific goals of the VISTA surveys which started in 2010 include many of the most exciting problems in astrophysics today ranging from the nature of dark energy to the threat of near Earth asteroids 2 There are six large public surveys being conducted by VISTA UltraVISTA VISTA Kilo Degree Infrared Galaxy Survey VIKING VISTA Magellanic Survey VMC VISTA Variables in the Via Lactea VVV VISTA Hemisphere Survey VHS VISTA Deep Extragalactic Observations Survey VIDEO These will take up the majority of the observing time in the telescope s first five years of operations The surveys cover different areas of sky to different depths to attack a wide range of scientific questions 8 More information about each of the VISTA surveys can be found on the ESO VISTA Surveys website and in the ESO Public Surveys Projects webpage Science with VISTA EditBecause VISTA is a large telescope that also has a large field of view it can both detect faint sources and also cover wide areas of sky quickly Each VISTA image captures a section of sky covering about ten times the area of the full Moon and it will be able to detect and catalogue objects over the whole southern sky with a sensitivity that is forty times greater than that achieved with earlier infrared sky surveys such as the highly successful Two Micron All Sky Survey This jump in observational power comparable to the step in sensitivity from the unaided eye to Galileo s first telescope will reveal vast numbers of new objects and allow the creation of far more complete inventories of rare and exotic objects in the southern sky 3 VISTA observations will support research in many astronomical areas Within our galaxy VISTA is expected to find many new brown dwarf stars and be able to test ideas about the nature of dark matter One VISTA survey is designed to find and study huge numbers of variable stars in our galaxy by taking images of the same areas of sky at different times Using VISTA data astronomers will be able to map the structure of our galaxy in much more detail than ever before Another VISTA survey will study our neighbouring small galaxies the Magellanic Clouds and their surroundings VISTA data will also be used to create a 3D map of about 5 of the entire observable Universe Further out VISTA will be a powerful tool for discovering remote quasars and studying the evolution of galaxies and clusters of galaxies It will help to probe the nature of dark energy by finding very distant galaxy clusters 9 Infrared measurements from the VVV astronomical survey have been employed to bolster the cosmic distance ladder namely by providing reliable distances to star clusters and Cepheid variable stars 10 11 Selection of VISTA Images EditThe first released image left shows the Flame Nebula NGC 2024 a spectacular star forming cloud of gas and dust in the familiar constellation of Orion the Hunter and its surroundings In visible light the core of the object is hidden behind thick clouds of dust but the VISTA image taken at infrared wavelengths can penetrate the murk and reveal the cluster of hot young stars hidden within The wide field of view of the VISTA camera also captures the glow of NGC 2023 and the ghostly form of the famous Horsehead Nebula 3 Other stunning nebula images include the VISTA views of the Orion Nebula and the Lagoon Nebula The picture on the right is a wide field view of the Orion Nebula Messier 42 lying about 1350 light years from Earth taken with the VISTA infrared survey telescope at ESO s Paranal Observatory in Chile The telescope s huge field of view allows the whole nebula and its surroundings to be imaged in a single picture and its infrared vision also means that it can peer deep into the normally hidden dusty regions and reveal the curious antics of the very active young stars buried there 12 An image of the Blue Lagoon is seen on the left below the Flame Nebula picture it is an infrared image taken as part of the VVV survey It shows the stellar nursery called the Lagoon Nebula also known as Messier 8 which lies about 4000 5000 light years away in the constellation of Sagittarius the Archer 13 The three tonne VISTA infrared camera hangs in the air in front of the telescope This picture shows how six different paw print exposures are combined to make one tile The 4 1 m main VISTA mirror undergoing optical testing VISTA can also stare far beyond our galaxy In the example on the left below the image of the Orion Nebula the telescope took a family photograph of a cluster of galaxies in the constellation of Fornax the Chemical Furnace The wide field allows many galaxies to be captured in a single image including the striking barred spiral NGC 1365 and the big elliptical galaxy NGC 1399 The image was constructed from images taken through Z J and Ks filters in the near infrared part of the spectrum and has captured many of the cluster members in a single image At the lower right is the elegant barred spiral galaxy NGC 1365 and to the left the big elliptical NGC 1399 surrounded by a swarm of faint globular clusters The image is about 1 degree by 1 5 degrees in extent and the total exposure time was 25 minutes 14 Technical details EditTelescope Design Edit Inside its enclosure Credit ESO The objective to repeatedly image large areas of sky at seeing limited resolution led to a unique optical design The primary mirror is a concave hyperboloid with 4 1 m diameter and about f 1 focal ratio The mirror has a meniscus shape of 17 cm thickness with a central 1 2 m hole to accommodate the camera at the Cassegrain focus It was cast from Zerodur by Schott in Germany and subsequently polished and figured by LZOS Moscow It is the largest mirror of this shape and of such short focal ratio polishing it took 2 years which was longer than anticipated 6 15 The mirror is supported by a number of actuators 81 on the back and 24 around the edge which allow its shape to be controlled by computers The secondary mirror is a convex hyperboloid of 1 24 m diameter The combination of the two hyperbolic mirrors makes this a quasi Ritchey Chretien design The combined focal ratio is about f 3 but the image quality of the two mirrors alone would be poor 16 The secondary mirror is mounted on a hexapod support so that its position tip and tilt are also computer controlled The infrared camera was built by a consortium composed of the Rutherford Appleton Laboratory the UK Astronomy Technology Centre and Durham University 17 and is the world s largest at almost three tonnes Telescope and camera form a single optical design as the three field correction lenses in the camera are essential for the projection of a focussed image of the sky on the detectors For an infrared camera it is also vital to block heat radiation from the telescope and dome This is accomplished by a sequence of cooled baffles in front of the field corrector lenses Also the secondary mirror is undersized to avoid edge detectors viewing warm structure outside the edge of the primary this means the aperture seen by any point in the image plane is 3 7 m This design requires the camera s vacuum cryostat which cools the detectors as well as the baffles to be more than 2 m long with a front window of 95 cm diameter A filter wheel just in front of the detectors allows the selection of a particular infrared wavelength range 18 Over an area corresponding to 1 65 diameter on the sky the image plane has 16 arrays of infrared detectors 16 each array with 2048x2048 pixels of 20 mm size corresponding on average to 0 34 on the sky 18 The focal length of 12 1 m combines with the baffled aperture of 3 7 m to a focal ratio of 3 26 The arrays are separated by 90 of their width in one direction and by just under 50 their width in the other direction A single exposure therefore corresponds to a patchy paw print on the sky To fill the gaps and obtain a conventional image at least six shifted paw prints have to be combined into a tile which then is 1 5 by 1 0 The image plane of the camera also has wave front detectors used to control the shape of the primary mirror and the position and tip tilt of the secondary mirror active optics This compensates for flexure and ensures a focused image at all altitudes 18 The hilltop where VISTA is located was flattened to erect the enclosure building and an auxiliary building The auxiliary building includes facilities to wash strip and coat the primary mirror The coating can be in aluminium or normally in protected silver for better infrared performance 15 The fixed base of the enclosure supports the rotating steel dome Two sliding doors form the dome slit Further dome panels can be opened to increase ventilation and a wind shield can be deployed to close parts of the slit During the day the dome is kept at night time temperature 19 Operation and data flow Edit VISTA gigapixel mosaic of the central parts of the Milky Way 20 On completion the telescope was handed over to ESO which has selected six public surveys for VISTA taking up 75 of the available observing time Proprietary surveys to occupy the remaining time are proposed to ESO which will schedule approved proposals for observation 21 The observations are carried out by operators at the Paranal Observatory remotely from the VLT control building 19 The combination of the large detector array and the short and frequent exposures necessary at infrared wavelengths results in a high data rate of 200 300 GB per night A quick look reduction at the Paranal Observatory will be used for daily quality control but the principal data flow is to transfer the raw data to ESO headquarters in Garching near Munich Germany for ingestion into the data archive Users can extract paw prints see above and pass them through a calibration pipeline to remove instrumental artefacts and calibrate the astrometry and photometry The archive data will also be copied to the VISTA Data Flow System in the UK where the paw prints will be combined into tiles see above and where source catalogues will be prepared from these 19 21 See also EditList of largest infrared telescopes VLT Survey Telescope Very Large Telescope European Southern ObservatoryNotes and references Edit First stunning images captured by Queen Mary led VISTA telescope Queen Mary University of London 2009 12 11 Retrieved 2011 08 03 a b c d The ESO Survey Telescopes ESO Retrieved 2011 08 03 a b c d VISTA Pioneering New Survey Telescope Starts Work ESO 2009 12 11 Retrieved 2011 08 03 The VISTA consortium consists of Queen Mary University of London as consortium leader Queen s University Belfast University of Birmingham University of Cambridge Cardiff University University of Central Lancashire Durham University University of Edinburgh University of Hertfordshire Keele University University of Leicester Liverpool John Moores University University of Nottingham University of Oxford University of St Andrews University of Southampton University of Sussex and University College London Big Red Eye is Ready VISTA Camera Shipped to Paranal ESO 2007 01 17 Retrieved 2011 08 03 a b Survey telescope nears completion Royal Observatory Edinburgh 2008 04 17 Retrieved 2011 08 03 United Kingdom to Join ESO on July 1 2002 ESO and PPARC Councils Endorse Terms of Accession ESO 2001 12 05 Retrieved 2011 08 03 The VISTA surveys ESO Retrieved 2011 08 03 VISTA science ESO Archived from the original on 2011 11 27 Retrieved 2011 08 03 Majaess Daniel Turner David Moni Bidin Christian Mauro Francesco Geisler Douglas Gieren Wolfgang Minniti Dante Chene Andre Nicolas Lucas Philip Borissova Jura Kurtev Radostn Dekany Istvan Saito Roberto K 2011 New Evidence Supporting Membership for TW Nor in Lynga 6 and the Centaurus Spiral Arm ApJ 741 2 Majaess D Turner D Moni Bidin C Geisler D Borissova J Minniti D Bonatto C Gieren W Carraro G Kurtev R Mauro F Chene A N Forbes D Lucas P Dekany I Saito R K Soto M 2012 Strengthening the open cluster distance scale via VVV photometry A amp A 537 Orion in a New Light VISTA exposes high speed antics of young stars ESO Retrieved 2011 08 03 VISTA Stares Deeply into the Blue Lagoon ESO Retrieved 2011 08 03 The Fornax Cluster of Galaxies ESO Retrieved 2011 08 03 a b Emerson J McPherson A Sutherland W 2006 Visible and Infrared Survey Telescope for Astronomy Progress report The Messenger 126 p 41 a b VISTA ESO Retrieved 2011 08 03 The VISTA camera ESO Retrieved 2011 08 03 a b c Emerson J P Sutherland W J McPherson A M Craig S C Dalton G B Ward A K 2005 The Visible amp Infrared Survey Telescope for Astronomy The Messenger 117 p 27 a b c Craig S C McPherson A 2003 VISTA project overview Archived 2011 07 21 at the Wayback Machine UK Astronomy Technology Centre Retrieved 23 September 2009 84 Million Stars and Counting ESO Press Release Retrieved 29 October 2012 a b VISTA web siteFurther reading Edit The ESO survey telescopes European Southern Observatory Retrieved 23 September 2009 VISTA Visible and Infrared Survey Telescope for Astronomy European Southern Observatory Retrieved 23 September 2009 VISTA Pioneering new survey telescope starts work ESO Press Release 49 09 11 December 2009 Retrieved 11 December 2009 Includes a number of pictures of or taken by the telescope External links Edit Wikimedia Commons has media related to VISTA telescope VISTA web site VISTA pages at the UK Astronomy Technology Centre ESO VISTA page Portals Stars Spaceflight Solar System Science Retrieved from https en wikipedia org w index php title VISTA telescope amp oldid 1120162753, wikipedia, wiki, book, books, library,

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