This video describes the monumental effort that went into constructing a 2D map of the universe to prepare for the Dark Energy Spectroscopic Instrument, which will produce the largest-ever 3D map of the universe. The final data release for the preparation of this 2D map, known as Data Release 9 or DR9, was distributed Jan. 13.
Before DESI, the Dark Energy Spectroscopic Instrument, can begin its 5-year mission from an Arizona mountaintop to produce the largest 3D sky map yet, researchers first needed an even bigger 2D map of the universe.
The 2D map, pieced together from 200, 000 telescope images and several years of satellite data, lacks information about galaxy distances, and DESI will supply this and provide other useful details by measuring the color signatures and “redshift” of galaxies and quasars in its survey. Objects’ redder colors provide telltale information about their distance from Earth and about how quickly they are moving away from us – and this phenomenon is known as redshift.
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In the end, this 2D map of the universe is the largest ever, based on the area of sky covered, its depth in imaging faint objects, and its more than 1 billion galaxy images.
The ambitious, 6-year effort to capture images and stitch them together for this 2D map – which involved 1, 405 observing nights at three telescopes on two continents and years of data from a space satellite, an upgraded camera to image incredibly faint and distant galaxies, 150 observers and 50 other researchers from around the world. The effort also required 1 petabyte of data – enough to store 1 million movies – and 100 million CPU hours at Berkeley Lab’s National Energy Research Scientific Computing Center (NERSC).
“This is the biggest map by almost any measure, ” said David Schlegel, co-project scientist for DESI who led the imaging project, known as the DESI Legacy Imaging Surveys. Schlegel is a cosmologist at the U.S. Department of Energy’s Lawrence Berkeley National Laboratory (Berkeley Lab), which is the lead institution for the international DESI collaboration.
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The map covers half of the sky, and digitally sprawls over 10 trillion pixels, which is equivalent to a mosaic of 833, 000 high-res smartphone photos. The DESI collaboration has about 600 participating scientists from 54 institutions around the world.
Publicly viewable at legacysurvey.org/viewer, the Sky Viewer map includes 2 billion objects – more than half of which are galaxies – and numerous clickable filters to select from specific object types or surveys. Some of the objects are individually labeled, and viewers can choose to display constellations, for example, and galaxies and quasars that will be imaged by DESI. Quasars are among the brightest objects in the universe, with supermassive black holes at their center that emit powerful jets of matter.
DESI is equipped with an array of 5, 000 swiveling, automated robots, each toting a thin fiber-optic cable that will be pointed at individual objects. These cables will gather the light from 35 million galaxies and 2.4 million quasars during the five years of DESI observations.
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DESI will collect and transmit data from these measurements to Berkeley Lab’s NERSC from Kitt Peak. Researchers at NERSC have already prepared for this incoming data by identifying which data-processing tasks would take up the most computing time and improving the code to speed up these tasks on the center’s current- and next-generation supercomputers. “In the end, we increased processing throughput five to seven times, which was a big accomplishment – bigger than I expected, ” said Laurie Stephey, a data analytics engineer at NERSC who played a key role in the effort.
The primary purpose of compiling the 2D map data is to identify these galaxy and quasar targets for DESI, which will measure their light to pinpoint their redshift and distance. This will ultimately provide new details about mysterious dark energy that is driving the universe’s accelerating expansion.
Nathalie Palanque-Delabrouille, DESI co-spokesperson and a cosmologist at the French Alternative Energies and Atomic Energy Commission (CEA), noted that the expansion rate has evolved, and there are many unanswered questions about the changes in this rate.
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“Our universe had a surprising history, ” she explained. “During the first half of its life, its expansion was driven mostly by the dark matter it contains.” Dark matter is unknown matter, making up 85 percent of all matter in the universe and so far only observed indirectly through its gravitational effects on normal matter.
“However, in the past 7 billion years the expansion of our universe has been gradually accelerating under the influence of a mysterious dark energy, ” she added, “and the goal of DESI is to precisely clarify this overall picture by unveiling what dark energy is.”
Palanque-Delabrouille has been involved in the effort to pick targets for DESI to observe from the surveys’ data. She noted that DESI will gather light from a mix of galaxies at several distances, including bright galaxies that are within 4 billion light years of Earth, so-called red galaxies that allow us to see back to 8 billion years ago, very young blue galaxies or “emission-line” galaxies that will go further back 10 billion years ago, and ultimately quasars, which are so bright they can be seen up to 12 billion light-years away.
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“Having managed to collect and process these imaging data is really a major achievement. DESI wouldn’t be getting anywhere without such large imaging surveys, ” she said.
Piecing together all of the DESI surveys’ images to create a seamless sky map was no trivial task, Schlegel explained. “One of the goals is to get a really uniform image by stitching together multiple observations, ” he said. “We started out scattershot. And cameras do have gaps – they miss stuff. Part of the challenge here was planning the observing program so that you could fill in all of the gaps – that was a huge logistical challenge. You have to make sure it is as homogeneous as possible.”
The three surveys that comprise the DESI Legacy Imaging Surveys conducted imaging in three different colors, and each survey took three separate images of the same sky areas to ensure complete coverage. This new, ground-based imaging data was also supplemented by imaging data from NASA’s Wide-field Infrared Survey Explorer (WISE) satellite mission, which collected space images in four bands of infrared light.
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For the Legacy Imaging Surveys’ data-taking effort, Schlegel designed a code, improved over time, that helped to calculate the best approach and timing for capturing the best images to completely cover half of the sky, considering hours of darkness, weather, exposure time, planetary and satellite paths, and moon brightness and location, among other variables.
Dustin Lang, DESI imaging scientist at the Perimeter Institute for Theoretical Physics in Canada, played a key role in standardizing all of the imaging data from ground- and sky-based surveys and stitching it together.
In some images, Lang noted, “the sky might be really stable and calm, ” while on another night “we might have light clouds or just a turbulent atmosphere that causes blurring in the images.” His challenge: to develop software that recognized the good data without diluting it with the bad data. “What we wanted to think about is what the stars and galaxies looked like above the atmosphere, ” he said, and to make sure the images matched up even when they were taken under different conditions.
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Lang created “The Tractor, ” a so-called “inference-based” model of the sky, to compare with data for the shape and brightness of objects imaged by different surveys and to select the best fit. The Tractor drew heavily upon supercomputer resources at Berkeley Lab’s NERSC to process the Legacy Imaging Surveys’ data and ensure its quality and consistency.
It was Lang, too, who recognized the potential popularity of the viewing tool created for the imaging data – which was adapted from street-mapping software – and brought it to the public as the Sky Viewer interactive map.
The viewing tool, he noted, was originally used by DESI researchers to check data discrepancies in the surveys’ images. It “transformed the way our team interacted with the data. It suddenly felt a lot more real that we could just scroll around the sky and explore individual problems with our data. It turned out to be surprisingly powerful.”
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Arjun Dey, the DESI project scientist for the National Science Foundation’s NOIRLab, which includes the Kitt Peak National Observatory site where DESI is situated, was a major contributor to two of the three imaging surveys, serving as the lead scientist for the Mayall z-band Legacy Survey (MzLS) carried out at Kitt Peak, and as co-lead scientist with Schlegel for the Dark Energy Camera Legacy Survey (DECaLS) carried out at a NOIRLab site in Chile.
The third DESI-preparatory survey, known as the Beijing-Arizona Sky Survey or (BASS), was conducted at Kitt Peak and supported by an international collaboration including the Chinese Academy of Sciences and the University of Arizona.
Researchers from China made more than 90 trips to Kitt Peak to carry out observations for BASS, which was supported by an international collaboration including the National Astronomical Observatories of China (NAOC) and the University of Arizona. “A joint research team of more than
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