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Nancy Grace Roman, shown here at NASA's Goddard Space Flight Center in approximately 1972, was the first female executive and the first Chief of Astronomy at NASA | Credit: NASA | Image | 701.2 KB | JPG | nancy grace roman | https://stsci.box.com/s/pjwtwa4q7z199puxppt3q4niwmae6wha | https://roman.gsfc.nasa.gov/aboutNGR.html | ||
Learn about Nancy Grace Roman, her contribution to NASA missions, and how NASA has honored her. | Credit: NASA's Goddard Space Flight Center Music: "Rising Tides" from Universal Production Music | Video | 956.8 MB | MP4 | Roman_Biography_Best_1080 | https://stsci.box.com/s/i26zvhytv00tqiwu1yw1t4vsmbdn0w5w | https://svs.gsfc.nasa.gov/13608 | ||
The original prototypes of the LEGO® Ideas "Women of NASA" set displayed in front of the Apollo Lunar Module in the Boeing Milestones of Flight Hall at the Smithsonian’s National Air and Space Museum in Washington, DC, August 20, 2018. Credit: National Air and Space Museum | Source:
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| Image | 2 MB | JPG | NASM2018-02043 | https://stsci.box.com/s/rrcyydzfzkgvy2v299smf185edd6gxbj | https://airandspace.si.edu/multimedia-gallery/nasm2018-02043jpg | ||
Nancy Grace Roman, standing here in front of a 1/6-scale model of the Hubble Space Telescope at NASA's Goddard Space Flight Center, is known to many as the "Mother of Hubble" for her foundational role in the observatory's planning and program structure, paving the way for missions like the Roman Space Telescope (formerly WFIRST). | Credit: NASA | Image | 1 MB | JPG | NGR_Still_1 | https://stsci.box.com/s/cwp47ll85gode0u4fakyxeriklk5xw32 | https://roman.gsfc.nasa.gov/aboutNGR.html | ||
Dr. Nancy Grace Roman visits James Webb Space Telescope (JWST) and the Hubble Project Team. | Photographer: NASA/GSFC/Bill Hrybyk | Image | 4 MB | JPG | GSFC_20170331_2017-11028_037_orig | https://stsci.box.com/s/wpbl1g90uren6f4iheg1cedv7105g1kp | https://images.nasa.gov/details-GSFC_20170331_2017-11028_037 | ||
Dr. Nancy Grace Roman visits James Webb Space Telescope (JWST) and the Hubble Project Team. | Photographer: NASA/GSFC/Bill Hrybyk | Image | 6 MB | JPG | GSFC_20170331_2017-11028_014_orig | https://stsci.box.com/s/2xg0hbfofxp3gubg345azk54st4sdvn5 | https://images.nasa.gov/details-GSFC_20170331_2017-11028_014 | ||
NASA's Associate Administrator of the Science Mission Directorate Dr. Edward J. Weiler presents the Women in Aerospace's Lifetime Achievement Award to retired NASA chief astronomer Nancy Grace Roman at the organization's annual awards ceremony and banquet held at the Ritz-Carlton Hotel in Arlington, VA on Tuesday, Oct. 26, 2010. Four current NASA leaders and one retiree were recognized for their work by Women in Aerospace. The event celebrates women's professional excellence in aerospace and honors women who have made outstanding contributions to the aerospace community. Photo Credit: (NASA/Bill Ingalls) | Photographer: (NASA/Bill Ingalls) | Image | 16.6 MB | TIF | 201010260006HQ_orig | https://stsci.box.com/s/19s43nv877zxbglxflxgkww09hyhru7y | https://images.nasa.gov/details-201010260006HQ | ||
The history of women's contributions to the fields of science, technology, engineering, and math (STEM) is long and varied. But it has also often been overlooked or underrepresented. This series highlights only a very few of the women who have made important discoveries and have had a crucial impact on STEM fields. This, however, is not just a look into the past. Today, women are in every STEM discipline, in every type of job, and represent the widest range of background and experiences. Download the free poster set to use in your space | Credit: NASA Illustration: Kristin DiVona | Image | 3.4 MB | roman_poster | https://stsci.box.com/s/qif9riups3ye1w650tg0u854dz62hcg9 | https://chandra.si.edu/women/images/roman.pdf | |||
Nancy with a model of an Orbiting Solar Observatory. | Credit: NASA | Image | 1.2 MB | PNG | nancy-model | https://stsci.box.com/s/ewta914jgirwifgx4g4v7geynckws1rs | https://hackaday.com/2018/04/03/nancy-grace-roman-mother-of-the-hubble/ | ||
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Still frame of spacecraft animation | Credit: NASA's Goddard Space Flight Center | Image | 48.4 KB | JPG | TurntableRev01A_ProRes_Alpha.00001_print | https://stsci.box.com/s/e5mcy7dm5i4cp48feffpktv9fscmto0s | https://roman.gsfc.nasa.gov/gallery-spacecraftillustrations.html | ||
Still frame of spacecraft animation | Credit: NASA's Goddard Space Flight Center | Image | 191.4 KB | JPG | Roman_Space_Telescope_Still_1 | https://stsci.box.com/s/iddn4cojy0peaq68urgiv2m5xvautwiw | https://svs.gsfc.nasa.gov/13621 | ||
Still frame of spacecraft animation | Credit: NASA's Goddard Space Flight Center | Image | 172.2 KB | JPG | Roman_Space_Telescope_Still_2 | https://stsci.box.com/s/axgzqky3u55uwjv3iwaags1gvewdz332 | https://svs.gsfc.nasa.gov/13621 | ||
Still frame of spacecraft animation | Credit: NASA's Goddard Space Flight Center | Image | 178.3 KB | JPG | Roman_Space_Telescope_Still_3 | https://stsci.box.com/s/3hr4ctcz7b61j6b14g4lh43ejcfx7wvk | https://svs.gsfc.nasa.gov/13621 | ||
Still frame of spacecraft animation | Credit: NASA's Goddard Space Flight Center | Image | 507.8 KB | JPG | RST_2020_Still | https://stsci.box.com/s/l6dcfm49nydoschci88jnvmn8o5d75q8 | https://svs.gsfc.nasa.gov/13621 | ||
Still frame of spacecraft animation | Credit: NASA's Goddard Space Flight Center | Image | 755.2 KB | JPG | Roman_Space_Telescope_Animation1_Still2 | https://stsci.box.com/s/qy3f9jyhy3aqxpn1su9qx9vjon0pid1g | https://svs.gsfc.nasa.gov/13621 | ||
Stylized still frame of spacecraft animation | Credit: NASA's Goddard Space Flight Center | Image | 2 MB | JPG | Trailer_still_1 | https://stsci.box.com/s/g526b9ntswvm4iovkiqjuksswa8jtodq | https://svs.gsfc.nasa.gov/13621 | ||
Stylized still frame of spacecraft animation | Credit: NASA's Goddard Space Flight Center | Image | 1.5 MB | JPG | Roman_Still_2 | https://stsci.box.com/s/h7k7y22w2rpqr0w3q46fdqrp5atysh1f | https://svs.gsfc.nasa.gov/13621 | ||
Stylized still frame of spacecraft animation and name | Credit: NASA's Goddard Space Flight Center | Image | 1.8 MB | JPG | Roman_Title_1 | https://stsci.box.com/s/de2mwgl5vg55u3zidr73ztyr498fobum | https://svs.gsfc.nasa.gov/13621 | ||
Still frame of spacecraft animation | Credit: NASA's Goddard Space Flight Center | Image | 38.3 KB | JPG | TurntableWithBarrelRollA_4k.00738_print | https://stsci.box.com/s/ckg6p2ta4vpw1nlsuk2xlpllt5n55w21 | https://svs.gsfc.nasa.gov/13621 | ||
"Beauty pass" animation of the Roman Space Telescope spacecraft | Credit: NASA's Goddard Space Flight Center | Video | 45.4 MB | MP4 | Roman_Space_Telescope_Beauty1_1080 | https://stsci.box.com/s/5sg8hzhiya6mm8r799fpul6w36wuuh7x | https://svs.gsfc.nasa.gov/13621 | ||
"Beauty pass" animation of the Roman Space Telescope spacecraft | Credit: NASA's Goddard Space Flight Center | Video | 45.5 MB | MP4 | Roman_Space_Telescope_Beauty2_1080 | https://stsci.box.com/s/frk2ko9hk4ydq2k8uxkohxvvhk6sy8uz | https://svs.gsfc.nasa.gov/13621 | ||
Welcome to NASA's upcoming infrared survey mission, taking a wider view of the cosmos. | Credit: NASA's Goddard Space Flight Center | Video | 281.5 MB | MP4 | Roman_Space_Telescope_Trailer_Best_1080 | https://stsci.box.com/s/ai1fe4kjh29ao3gcqbi93xrku2u9b5ui | https://svs.gsfc.nasa.gov/13606 | ||
The Roman Space Telescope’s primary mirror reflects an American flag. Its surface is figured to a level hundreds of times finer than a typical household mirror. | Credits: L3Harris Technologies | Image | 9 MB | JPG | pm10 | https://stsci.box.com/s/xzo05oilxq7upj38wg1gdvitxa111y95 | https://www.nasa.gov/feature/goddard/2020/primary-mirror-for-nasas-roman-space-telescope-completed | ||
The Nancy Grace Roman Space Telescope’s primary mirror, which will collect and focus light from cosmic objects near and far, has been completed. Using this mirror, Roman will capture stunning space vistas with a field of view 100 times greater than Hubble images. | Credits: L3Harris Technologies | Image | 1.7 MB | JPG | pm2_1 | https://stsci.box.com/s/bou373c30lnu38zn7bcrshm8rie56656 | https://www.nasa.gov/feature/goddard/2020/primary-mirror-for-nasas-roman-space-telescope-completed | ||
Crane operators lower the support equipment to move the Roman Space Telescope’s primary mirror. Using this mirror, Roman will provide a new view into the universe, helping scientists solve cosmic mysteries related to dark matter, dark energy, and planets around other stars. | Credits: L3Harris Technologies | Image | 43.7 KB | JPG | pm3 | https://stsci.box.com/s/ozwncqvt4ml3idufa4rt00rjvwkikkam | https://www.nasa.gov/feature/goddard/2020/primary-mirror-for-nasas-roman-space-telescope-completed | ||
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Rogue planets are free-floating planets that do not orbit a star and instead travel through space. Scientists think they are outcasts from developing planetary systems and may be very numerous throught the galaxy. This illustration shows a rogue planet traveling through space. | Credit: NASA/JPL-Caltech/R. Hurt (Caltech-IPAC) | Video | 30 MB | MP4 | 13644_Rogue_Planet_1080 | https://stsci.box.com/s/m6pxbptqq1xwopul054cib53a8476k8b | https://svs.gsfc.nasa.gov/13644 | ||
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This image of the Eagle Nebula showcases the superb resolution and wide field of view of NASA’s upcoming Nancy Grace Roman Space Telescope. In the center is Hubble's view of the Pillars of Creation - superimposed on a ground-based image. Roman’s Wide Field Instrument field of view is highlighted. Roman’s images will have the resolution of Hubble while covering an area about 100 times larger in a single pointing. The wide field image for the Eagle nebula is a combination between an image taken by NSF’s 0.9-meter telescope at Kitt Peak National Observatory (Credit: T.A.Rector (NRAO/AUI/NSF and NOIRLab/NSF/AURA) and B.A.Wolpa (NOIRLab/NSF/AURA)) and an image by amateur astronomer Liam Murphy. | L. Hustak (STScI) Acknowledgement: L. Murphy, T.A.Rector (NRAO/AUI/NSF and NOAO/AURA/NSF) and B.A.Wolpa (NOAO/AURA/NSF) | Image | 9.7 MB | PNG | Eagle_Zoom_3840x2160 | https://stsci.box.com/s/vo03mnk2vky8kwm6w3sd2wnw1rxppcod | N/A Related Press Release - https://hubblesite.org/contents/news-releases/2020/news-2020-41 | ||
This image of the Eagle Nebula showcases the superb resolution and wide field of view of NASA’s upcoming Nancy Grace Roman Space Telescope. In the center is Hubble's view of the Pillars of Creation - superimposed on a ground-based image. Roman’s Wide Field Instrument field of view is highlighted. Roman’s images will have the resolution of Hubble while covering an area about 100 times larger in a single pointing. This version has labels. The wide field image for the Eagle nebula is a combination between an image taken by NSF’s 0.9-meter telescope at Kitt Peak National Observatory (Credit: T.A.Rector (NRAO/AUI/NSF and NOIRLab/NSF/AURA) and B.A.Wolpa (NOIRLab/NSF/AURA)) and an image by amateur astronomer Liam Murphy. | L. Hustak (STScI) Acknowledgement: L. Murphy, T.A.Rector (NRAO/AUI/NSF and NOAO/AURA/NSF) and B.A.Wolpa (NOAO/AURA/NSF) | Image | 9.7 MB | PNG | Eagle_Zoom_RomanHubbleLabeled_3840x2160 | https://stsci.box.com/s/ybkkkyed2qoqgsph2zsmp8k7olgz7ji0 | N/A
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This video of the Eagle Nebula showcases the superb resolution and wide field of view of NASA’s upcoming Nancy Grace Roman Space Telescope. It begins with a Hubble image of the famous Pillars of Creation superimposed on a ground-based image. The view then zooms out to show the full field of view of Roman’s Wide Field Instrument. Roman’s images will have the resolution of Hubble while covering an area about 100 times larger in a single pointing. The wide field image for the Eagle nebula is a combination between an image taken by NSF’s 0.9-meter telescope at Kitt Peak National Observatory (Credit: T.A.Rector (NRAO/AUI/NSF and NOIRLab/NSF/AURA) and B.A.Wolpa (NOIRLab/NSF/AURA)) and an image by amateur astronomer Liam Murphy. | L. Hustak (STScI) Acknowledgement: L. Murphy, T.A.Rector (NRAO/AUI/NSF and NOAO/AURA/NSF) and B.A.Wolpa (NOAO/AURA/NSF) | Video | 41.7 MB | MP4 | STScI-H-v2041a-3840x2160 | https://stsci.box.com/s/0hdnebsckqiyi55segnf3wo5bov4hpbr | https://hubblesite.org/contents/media/videos/2020/41/1282-Video?news=true | ||
This video of the Eagle Nebula showcases the superb resolution and wide field of view of NASA’s upcoming Nancy Grace Roman Space Telescope. It begins with a Hubble image of the famous Pillars of Creation superimposed on a ground-based image. The view then zooms out to show the full field of view of Roman’s Wide Field Instrument. Roman’s images will have the resolution of Hubble while covering an area about 100 times larger in a single pointing. This version has labels. The wide field image for the Eagle nebula is a combination between an image taken by NSF’s 0.9-meter telescope at Kitt Peak National Observatory (Credit: T.A.Rector (NRAO/AUI/NSF and NOIRLab/NSF/AURA) and B.A.Wolpa (NOIRLab/NSF/AURA)) and an image by amateur astronomer Liam Murphy. | L. Hustak (STScI) Acknowledgement: L. Murphy, T.A.Rector (NRAO/AUI/NSF and NOAO/AURA/NSF) and B.A.Wolpa (NOAO/AURA/NSF) | Video | 42.3 MB | MP4 | STScI-H-v2041c-3840x2160 | https://stsci.box.com/s/d45dk6epga6vje40o7wzgrnmzdura80a | https://hubblesite.org/contents/media/videos/2020/41/1284-Video?news=true | ||
This simulated image of a portion of the Andromeda galaxy highlights the high resolution, large field of view, and unique footprint of NASA’s upcoming Nancy Grace Roman Space Telescope. | NASA, STScI, and B.F. Williams (University of Washington) | Image | 45.4 MB | PNG | STSCI-H-p2002a-q-7237x4453 | https://stsci.box.com/s/tu9i8tuiqnyhoizcd8x6gwubasg788km | https://hubblesite.org/contents/media/images/2020/02/4608-Image?news=true | ||
Details of a simulated image of the Andromeda galaxy highlight the high resolution of Roman imagery. Unlike a typical wide field camera, which can cover a large area of sky but cannot reveal fine details, Roman will provide both a large field of view and high resolution. The details shown here each cover about 0.0013 square degrees of sky, the equivalent to a single infrared image from Hubble’s WFC3 camera. The pixel scale is 0.11 arcseconds/pixel. | NASA, STScI, and B. F. Williams (University of Washington) | Image | 56.1 MB | PNG | STSCI-H-p2002b-q-7237x5121 | https://stsci.box.com/s/0d8yszqylp7oum3m4yvx1e885tsyh25k | https://hubblesite.org/contents/media/images/2020/02/4609-Image?news=true | ||
Details of a simulated image of the Andromeda galaxy highlight the high resolution of Roman imagery. Unlike a typical wide field camera, which can cover a large area of sky but cannot reveal fine details, Roman will provide both a large field of view and high resolution. The details shown here each cover about 0.0013 square degrees of sky, the equivalent to a single infrared image from Hubble’s WFC3 camera. The pixel scale is 0.11 arcseconds/pixel. This version has additional labels. | NASA, STScI, and B. F. Williams (University of Washington) | Image | 56.1 MB | PNG | STSCI-H-p2002c-q-7237x5121 | https://stsci.box.com/s/g7nhs7jr4g5s9pmpmbmsvf1c8af866xt | https://hubblesite.org/contents/media/images/2020/02/4610-Image?news=true | ||
A composite figure of the Andromeda galaxy (M31) highlights the extremely large field of view of NASA’s upcoming Nancy Grace Roman Space Telescope. | Background image: Digitized Sky Survey and R. Gendler Moon image: NASA, GSFC, and Arizona State University WFIRST simulation: NASA, STScI, and B. F. Williams (University of Washington) | Image | 38.3 MB | PNG | STSCI-H-p2002d-f-5400x5400 | https://stsci.box.com/s/v0dn04p7uzemp5zis8im8wmqq52npc46 | https://hubblesite.org/contents/media/images/2020/02/4611-Image?news=true | ||
A composite figure of the Andromeda galaxy (M31) highlights the extremely large field of view of NASA’s upcoming Nancy Grace Roman Space Telescope. This version has additional labels. | Background image: Digitized Sky Survey and R. Gendler Moon image: NASA, GSFC, and Arizona State University WFIRST simulation: NASA, STScI, and B. F. Williams (University of Washington) | Image | 38.4 MB | PNG | STSCI-H-p2002e-f-5400x5400 | https://stsci.box.com/s/587tn7f4cpsbvxzs1a9c1cpujmn27wru | https://hubblesite.org/contents/media/images/2020/02/4612-Image?news=true | ||
NASA’s Nancy Grace Roman Space Telescope, will capture the equivalent of 100 high-resolution Hubble images in a single shot, imaging large areas of the sky 1,000 times faster than Hubble. In several months, the Roman Space Telescope could survey as much of the sky in near-infrared light—in just as much detail—as Hubble has over its entire three decades. Watch the video to learn more about the Roman Space Telescope's simulated image. | Credit: NASA's Goddard Space Flight Center Music: "Flight Impressions" from Universal Production Music | Video | 936.5 MB | MP4 | 13497_Simulated_Image_Roman_Best_1080 | https://stsci.box.com/s/ad3bo5j1m9p5ubjnkz1h5iku0n5pliyp | https://svs.gsfc.nasa.gov/13497 |
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This image of galaxy cluster Abell 426 showcases the superb resolution and wide field of view of NASA’s upcoming Nancy Grace Roman Space Telescope. It highlights Hubble's view of the galaxy NGC 1275 superimposed on a ground-based image. Roman’s Wide Field Instrument field of view is highlighted. Roman’s images will have the resolution of Hubble while covering an area about 100 times larger in a single pointing. The wide field image for Abell 426 is composed of a combination of the Digitized Sky Survey and an image by Petri Kehusmaa. | L. Hustak (STScI) Acknowledgement: Digitized Sky Survey and P. Kehusmaa | Image | 8.3 MB | PNG | Abell246_Zoom_3840x2160 | https://stsci.box.com/s/r6deulxldsro4vvfk8uu6owem39hm78y | N/A Related Press Release - https://hubblesite.org/contents/news-releases/2020/news-2020-41 | ||
This image of galaxy cluster Abell 426 showcases the superb resolution and wide field of view of NASA’s upcoming Nancy Grace Roman Space Telescope. It highlights Hubble's view of the galaxy NGC 1275 superimposed on a ground-based image. Roman’s Wide Field Instrument field of view is highlighted. Roman’s images will have the resolution of Hubble while covering an area about 100 times larger in a single pointing. This version has labels. The wide field image for Abell 426 is composed of a combination of the Digitized Sky Survey and an image by Petri Kehusmaa. | L. Hustak (STScI) Acknowledgement: Digitized Sky Survey and P. Kehusmaa | Image | 8.3 MB | PNG | Abell246_Zoom_RomanHubbleLabeled_3840x2160 | https://stsci.box.com/s/38thedm791ragzsrbixdnbq1yczt6cq6 | N/A Related Press Release - https://hubblesite.org/contents/news-releases/2020/news-2020-41 | ||
This video of galaxy cluster Abell 426 showcases the superb resolution and wide field of view of NASA’s upcoming Nancy Grace Roman Space Telescope. It begins with a Hubble image of the galaxy NGC 1275 superimposed on a ground-based image. The view then zooms out to show the full field of view of Roman’s Wide Field Instrument. Roman’s images will have the resolution of Hubble while covering an area about 100 times larger in a single pointing. The wide field image for Abell 426 is composed of a combination of the Digitized Sky Survey and an image by Petri Kehusmaa. | L. Hustak (STScI) Acknowledgement: Digitized Sky Survey and P. Kehusmaa | Video | 22.9 MB | MP4 | STScI-H-v2041b-3840x2160 | https://stsci.box.com/s/omngflj4hxisfa39wsp858gjacgg34a0 | https://hubblesite.org/contents/media/videos/2020/41/1283-Video?news=true | ||
This video of galaxy cluster Abell 426 showcases the superb resolution and wide field of view of NASA’s upcoming Nancy Grace Roman Space Telescope. It begins with a Hubble image of the galaxy NGC 1275 superimposed on a ground-based image. The view then zooms out to show the full field of view of Roman’s Wide Field Instrument. Roman’s images will have the resolution of Hubble while covering an area about 100 times larger in a single pointing. This version has labels. The wide field image for Abell 426 is composed of a combination of the Digitized Sky Survey and an image by Petri Kehusmaa. | L. Hustak (STScI) Acknowledgement: Digitized Sky Survey and P. Kehusmaa | Video | 23.8 MB | MP4 | STScI-H-v2041d-3840x2160 | https://stsci.box.com/s/v0dmg4druro82sk89tfnqtbsu58tvfks | https://hubblesite.org/contents/media/videos/2020/41/1285-Video?news=true | ||
This image showcases one panel of an exhibit on UGC 2885 (Rubin's Galaxy), highlighting the unique strengths of Hubble, Webb, and Roman in observing galaxies. | Hubble's View of Rubin's Galaxy: NASA, ESA, and B. Holwerda (University of Louisville) Exhibit composition: STScI | Image | 2.9 MB | JPG | UGC2885_2019-exhibit-FINAL | https://stsci.box.com/s/hus1o6ule8xwkyyhzeezp1yc9rf2r33m | N/A Hubble's Rubin Galaxy press release - https://hubblesite.org/contents/news-releases/2020/news-2020-1 | ||
This image showcases UGC 2885 (Rubin's Galaxy), with Hubble's view in inset and the Roman field of view. Roman will be able to capture the entire halo of galaxies like Rubin in a single pointing, which is about 100 times larger than a Hubble pointing. Image being updated by STScI, will be available shortly! | Hubble's View of Rubin's Galaxy: NASA, ESA, and B. Holwerda (University of Louisville) Image composition: STScI | Image | 29.9 MB | PNG | UGC2885_2020-article-FINAL | https://stsci.box.com/s/086qhmyu48rg6ppfz4qznnyhiu8e13sd | N/A Hubble's Rubin Galaxy press release - https://hubblesite.org/contents/news-releases/2020/news-2020-1 |
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This infographic showcases the difference in data volume between the Nancy Grace Roman, Webb and Hubble space telescopes. Each day, Roman will send over 500 times more data back to Earth than Hubble. | Credit: NASA's Goddard Space Flight Center | Image | 38.9 MB | PNG | Roman_Data_Scale_Final | https://stsci.box.com/s/iqmluwt2j2dyeexzpv8vyfdo4kkristp | https://svs.gsfc.nasa.gov/13667 | ||
This infographic showcases the difference in data volume between the Nancy Grace Roman and Hubble space telescopes. Each day, Roman will send over 500 times more data back to Earth than Hubble. | Credit: NASA's Goddard Space Flight Center | Image | 39.3 MB | PNG | Roman_Data_Scale_HubbleOnly_Final | https://stsci.box.com/s/okmw15dblwmq4ajnmkfnivxdwb4e4p6s | https://svs.gsfc.nasa.gov/13667 | ||
This simulated image illustrates the wide range of science enabled by Roman's extremely wide field of view and exquisite resolution. The purple squares, which all contain background imagery simulated using data from Hubble’s Cosmic Assembly Near-infrared Deep Extragalactic Survey (CANDELS) program, outline the area Roman can capture in a single observation. An orange square shows the field of view of Hubble’s Wide Field Camera 3 for comparison. While the CANDELS program took Hubble nearly 21 days to survey in near-infrared light, Roman’s large field of view and higher efficiency would allow it to survey the same area in less than half an hour. Top left: This view illustrates a region of the large nearby spiral galaxy M83. Top right: A hypothetical distant dwarf galaxy appears in this magnified view, demonstrating Roman’s ability to detect small, faint galaxies at large distances. Bottom left: This magnified view illustrates how Roman will be able to resolve bright stars even in the dense cores of globular star clusters. Bottom right: A zoom of the CANDELS-based background shows the density of high-redshift galaxies Roman will detect. New version will be available soon. | Credit: Benjamin Williams, David Weinberg, Anil Seth, Eric Bell, Dave Sand, Dominic Benford, and the WINGS Science Investigation Team | Image | PNG | Greatfield_Simulated_Roman_Landscape_Text | https://stsci.box.com/s/9fgfz4uyjmpa1io3yzow2w9kn2icigxg | https://svs.gsfc.nasa.gov/13667 | |||
This simulated image illustrates the wide range of science enabled by Roman's extremely wide field of view and exquisite resolution. The purple squares, which all contain background imagery simulated using data from Hubble’s Cosmic Assembly Near-infrared Deep Extragalactic Survey (CANDELS) program, outline the area Roman can capture in a single observation. An orange square shows the field of view of Hubble’s Wide Field Camera 3 for comparison. While the CANDELS program took Hubble nearly 21 days to survey in near-infrared light, Roman’s large field of view and higher efficiency would allow it to survey the same area in less than half an hour. Top left: This view illustrates a region of the large nearby spiral galaxy M83. Top right: A hypothetical distant dwarf galaxy appears in this magnified view, demonstrating Roman’s ability to detect small, faint galaxies at large distances. Bottom left: This magnified view illustrates how Roman will be able to resolve bright stars even in the dense cores of globular star clusters. Bottom right: A zoom of the CANDELS-based background shows the density of high-redshift galaxies Roman will detect. | Credit: Benjamin Williams, David Weinberg, Anil Seth, Eric Bell, Dave Sand, Dominic Benford, and the WINGS Science Investigation Team | Image | PNG | Greatfield_Simulated_Roman_Portrait_Text | https://stsci.box.com/s/4wrzhvltn01mcpu2w238tddsvsx8fsmc | https://svs.gsfc.nasa.gov/13667 | |||
This simulated image illustrates the wide range of science enabled by Roman's extremely wide field of view and exquisite resolution. The purple squares, which all contain background imagery simulated using data from Hubble’s Cosmic Assembly Near-infrared Deep Extragalactic Survey (CANDELS) program, outline the area Roman can capture in a single observation. An orange square shows the field of view of Hubble’s Wide Field Camera 3 for comparison. While the CANDELS program took Hubble nearly 21 days to survey in near-infrared light, Roman’s large field of view and higher efficiency would allow it to survey the same area in less than half an hour. Top left: This view illustrates a region of the large nearby spiral galaxy M83. Top right: A hypothetical distant dwarf galaxy appears in this magnified view, demonstrating Roman’s ability to detect small, faint galaxies at large distances. Bottom left: This magnified view illustrates how Roman will be able to resolve bright stars even in the dense cores of globular star clusters. Bottom right: A zoom of the CANDELS-based background shows the density of high-redshift galaxies Roman will detect. | Credit: Benjamin Williams, David Weinberg, Anil Seth, Eric Bell, Dave Sand, Dominic Benford, and the WINGS Science Investigation Team | Image | PNG | Greatfield_Simulated_Roman_Landscape_NoText | https://stsci.box.com/s/lnp2rumbiadldy6a6wrcj392qvbmhzvw | https://svs.gsfc.nasa.gov/13667 | |||
This simulated image illustrates the wide range of science enabled by Roman's extremely wide field of view and exquisite resolution. The purple squares, which all contain background imagery simulated using data from Hubble’s Cosmic Assembly Near-infrared Deep Extragalactic Survey (CANDELS) program, outline the area Roman can capture in a single observation. An orange square shows the field of view of Hubble’s Wide Field Camera 3 for comparison. While the CANDELS program took Hubble nearly 21 days to survey in near-infrared light, Roman’s large field of view and higher efficiency would allow it to survey the same area in less than half an hour. Top left: This view illustrates a region of the large nearby spiral galaxy M83. Top right: A hypothetical distant dwarf galaxy appears in this magnified view, demonstrating Roman’s ability to detect small, faint galaxies at large distances. Bottom left: This magnified view illustrates how Roman will be able to resolve bright stars even in the dense cores of globular star clusters. Bottom right: A zoom of the CANDELS-based background shows the density of high-redshift galaxies Roman will detect. | Credit: Benjamin Williams, David Weinberg, Anil Seth, Eric Bell, Dave Sand, Dominic Benford, and the WINGS Science Investigation Team | Image | PNG | Greatfield_Simulated_Roman_Portrait_NoText | https://stsci.box.com/s/61cwd1r28a686qh1uze2v15ws3azc5rq | https://svs.gsfc.nasa.gov/13667 | |||