image: This view compares a lucky imaging view of Jupiter from VISIR (left) at infrared wavelengths with a very sharp amateur image in visible light from about the same time (right). view more
Credit: ESO/L.N. Fletcher/Damian Peach
Stunning new images and the highest-resolution maps to date of Jupiter at thermal infrared wavelengths give a glowing view of Juno's target, a week ahead of the NASA mission's arrival at the giant planet. The maps reveal the present-day temperatures, composition and cloud coverage within Jupiter's dynamic atmosphere, and show how giant storms, vortices and wave patterns shape the appearance of the giant planet. The observations will be presented on Monday 27 June at the National Astronomy Meeting in Nottingham by Dr Leigh Fletcher of the University of Leicester.
The high-resolution maps and images were created from observations with the European Southern Observatory's Very Large Telescope (VLT) in Chile, using a newly-upgraded thermal imager called VISIR. The observations were taken between February and June 2016 to characterise Jupiter's atmosphere ahead of Juno's arrival.
"We used a technique called 'lucky imaging', whereby individual sharp frames are extracted from short movies of Jupiter to 'freeze' the turbulent motions of our own atmosphere, to create a stunning new image of Jupiter's cloud layers," explained Dr Fletcher. "At this wavelength, Jupiter's clouds appear in silhouette against the deep internal glows of the planet. Images of this quality will provide the global context for Juno's close-up views of the planet at the same wavelength."
Dr Fletcher and his team have also used the TEXES spectrograph on NASA's Infrared Telescope Facility (IRTF) in Hawaii regularly to map Jupiter's changing appearance. The team made observations at many different wavelengths, optimised for different features and cloud layers in Jupiter's atmosphere, to create the first global spectral maps of Jupiter taken from Earth.
"These maps will help set the scene for what Juno will witness in the coming months. We have seen new weather phenomena that have been active on Jupiter throughout 2016.
These include a widening of one of the brown belts just north of the equator, which has spawned wave patterns throughout the northern hemisphere, both in the cloud layers and high above in the planet's stratosphere," said Dr Fletcher from the University of Leicester's Department of Physics and Astronomy. "Observations at different wavelengths across the infrared spectrum allow us to piece together a three dimensional picture of how energy and material are transported upwards through the atmosphere."
Both sets of observations were made as part of a campaign using several telescopes in Hawaii and Chile, as well as contributions from amateur astronomers around the world, to understand Jupiter's climate ahead of Juno's arrival. The ground-based campaign in support of Juno is led by Dr Glenn Orton of NASA's Jet Propulsion Laboratory. Once in orbit around Jupiter, Juno will skim just 5000 km above Jupiter's clouds once a fortnight - too close to provide global coverage in a single image. The Earth-based observations supplement the suite of advanced instrumentation on the Juno spacecraft, filling in the gaps in Juno's spectral coverage and providing the wider global and temporal context to Juno's close-in observations.
"The combined efforts of an international team of amateur and professional astronomers have provided us with an incredibly rich dataset over the past eight months," said Dr Orton. "Together with the new results from Juno, this dataset will allow researchers to characterise Jupiter's global thermal structure, cloud cover and distribution of gaseous species. We can then hope to answer questions like what drives Jupiter's atmospheric changes, and how the weather we see is connected to processes hidden deep within the planet."
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Science Contact
Dr Leigh Fletcher
Department of Physics and Astronomy
University of Leicester
Leicester
+441162523585
@LeighFletcher
leigh.fletcher@leicester.ac.uk
Dr Fletcher will be participating in a Google Hangout on Air on Monday 27th June: https://plus.google.com/u/0/events/cu3mcacmbmmrd1eghb8chrckj1g?cfem=1
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Images
Images and video can be downloaded in a range of resolutions and formats from the ESO website: https://www.eso.org/public/news/eso1623/
Jupiter imaged using the VISIR instrument on the VLT
In preparation for the imminent arrival of NASA's Juno spacecraft in July 2016, astronomers used ESO's Very Large Telescope to obtain spectacular new infrared images of Jupiter using the VISIR instrument. They are part of a campaign to create high-resolution maps of the giant planet to inform the work to be undertaken by Juno over the following months, helping astronomers to better understand the gas giant.
This false-colour image was created by selecting and combining the best images obtained from many short VISIR exposures at a wavelength of 5 micrometres. Credit: ESO/L. Fletcher https://nam2016.org/images/nam2016/Media/Fletcher/eso1623a.jpg
Two faces of Jupiter
False colour images generated from VLT observations in February and March 2016, showing two different faces of Jupiter. The bluer areas are cold and cloud-free, the orangey areas are warm and cloudy, more colourless bright regions are warm and cloud-free, and dark regions are cold and cloudy (such as the Great Red Spot and the prominent ovals). The wave pattern over the North Equatorial Band shows up in orange.
This view was created by combining VLT/VISIR infrared images from February 2016 (left) and March 2016 (right). The orange images were obtained at 10.7 micrometres wavelength and highlight the different temperatures and presence of ammonia. The blue images at 8.6 micrometres highlight variations in cloud opacity. Credit: ESO/L.N. Fletcher https://nam2016.org/images/nam2016/Media/Fletcher/eso1623b.jpg
Comparison of VISIR and visible light views of Jupiter
This view compares a lucky imaging view of Jupiter from VISIR (left) at infrared wavelengths with a very sharp amateur image in visible light from about the same time (right). Credit: ESO/L.N. Fletcher/Damian Peach
https://nam2016.org/images/nam2016/Media/Fletcher/eso1623c.jpg
Mapping Jupiter's changing appearance
These maps were created by slicing Jupiter's atmosphere using spectroscopy from the IRTF/TEXES instrument, and include a comparison to a visible light map from amateur observers. The 8 micrometre wavelength senses stratospheric temperatures near 1 mbar, showing wave activity in the northern hemisphere and heating associated with Jupiter's powerful auroras. The 8.6 and 10.4 micrometre wavelengths sense tropospheric temperatures, ammonia humidity and cloud coverage. Adapted from Fletcher et al. (2016). Credit: NASA/Infrared Telescope Facility/M. Vedovato/JUPOS Team/Fletcher et al.
https://nam2016.org/images/nam2016/Media/Fletcher/irtf_texes.jpg
Video
Jupiter imaged using the VISIR instrument on the VLT
In preparation for the imminent arrival of NASA's Juno spacecraft in July 2016, astronomers used ESO's Very Large Telescope to obtain spectacular new infrared images of Jupiter using the VISIR instrument. They were part of a campaign to create high-resolution maps of the giant planet to inform the work to be undertaken by Juno over the following months, helping astronomers to better understand the gas giant.
This video was created from many short VISIR exposures at a wavelength of 5 micrometres. The telescope was moved slightly between exposures and the changing turbulence of the Earth's atmosphere can be seen. Credit: ESO/L. Fletcher https://nam2016.org/images/nam2016/Media/Fletcher/eso1623a.mp4
Further Information:
- Coordinated observing campaign details available at http://www.missionjuno.swri.edu.
- Fletcher et al., (2016), Mid-Infrared Mapping of Jupiter's Temperatures, Aerosol Opacity and Chemical Distributions with IRTF/TEXES, Icarus, accepted (doi: 10.1016/j.icarus.2016.06.008).
About Juno
JPL manages the Juno mission for the principal investigator, Dr. Scott Bolton, of Southwest Research Institute in San Antonio. The Juno mission is part of the New Frontiers Program managed by NASA's Marshall Space Flight Center in Huntsville, Alabama for the agency's Science Mission Directorate. Lockheed Martin Space Systems, in Denver, built the spacecraft. JPL is a division of the California Institute of Technology in Pasadena.
More information about the Juno mission is available at: http://www.nasa.gov/juno
Notes for editors
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