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  False-colour image from NASA‘s Spitzer Space Telescope shows the formation of stars.

  False-colour image from NASA‘s Spitzer Space Telescope shows the formation of stars. Towering pillars of cool gas and dust are illuminated at their tips with light from warm embryonic stars. This inra-red picture shows pillars in the region called W5, in the Cassiopeia constellation 7,000 light-years away and 50 light-years across. The red colour in the Spitzer image represents organic molecules known as polycyclic aromatic hydrocarbons. These building blocks of life are often found in star-forming clouds of gas and dust.、クレジット：Ｗｏｒｌｄ　Ｈｉｓｔｏｒｙ　Ａｒｃｈｉｖｅ／ニューズコム／共同通信イメージズ　※エディトリアル使用のみ。広告、プロモーション、商業目的での利用に関してはお問合せください。

  商品コード: 2019091002623

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  2015年02月09日

  Baby Stars In The Orion Constellation

  February 9, 2015 - Space - Scores of baby stars shrouded by dust are revealed in this infrared image of the star-forming region NGC 2174, as seen by NASA‘s Spitzer Space Telescope. In this image first published in 2015, infrared wavelengths have been assigned visible colors we see with our eyes. Light with a wavelength of 3.5 microns is shown in blue, 8.0 microns is green, and 24 microns in red. The greens show the organic molecules in the dust clouds, illuminated by starlight. Reds are caused by the thermal radiation emitted from the very hottest areas of dust. (Credit Image: © NASA/ZUMA Press Wire Service/ZUMAPRESS.com)、クレジット：©ＮＡＳＡ／ＺＵＭＡ　Ｐｒｅｓｓ　Ｗｉｒｅ　Ｓｅｒｖｉｃｅ／ＺＵＭＡＰＲＥＳＳ．ｃｏｍ／共同通信イメージズ

  商品コード: 2022011510636

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  2016年08月19日

  NASA‘s OSIRIS-REx Spacecraft Successfully Touches Asteroid

  August 19, 2016 - Space - Inside the Payload Hazardous Servicing Facility at NASA‘s Kennedy Space Center in Florida, the agency‘s Origins, Spectral Interpretation, Resource Identification, Security-Regolith Explorer, or OSIRIS-REx spacecraft is prepared for encapsulation in its payload fairing. Targeted for liftoff Sept. 8, 2016, OSIRIS-Rex will be the first U.S. mission to sample an asteroid, retrieve at least two ounces of surface material and return it to Earth for study. The asteroid, Bennu, may hold clues to the origin of the solar system and the source of water and organic molecules found on Earth. (Credit Image: © NASA/ZUMA Wire/ZUMAPRESS.com)、クレジット：©ＮＡＳＡ／ＺＵＭＡ　Ｗｉｒｅ／ＺＵＭＡＰＲＥＳＳ．ｃｏｍ／共同通信イメージズ

  商品コード: 2020102301149

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  2016年09月08日

  NASA‘s OSIRIS-REx Spacecraft Successfully Touches Asteroid

  September 8, 2016 - Cape Canaveral, FL, Space - The United Launch Alliance Atlas V rocket carrying NASA‘s Origins, Spectral Interpretation, Resource Identification, Security-Regolith Explorer (OSIRIS-REx) spacecraft lifts off on from Space Launch Complex 41 on Thursday, Sept. 8, 2016 at Cape Canaveral Air Force Station in Florida. OSIRIS-REx will be the first U.S. mission to sample an asteroid, retrieve at least two ounces of surface material and return it to Earth for study. The asteroid, Bennu, may hold clues to the origin of the solar system and the source of water and organic molecules found on Earth. Photo Credit: (NASA/Joel Kowsky) (Credit Image: © NASA/ZUMA Wire/ZUMAPRESS.com)、クレジット：（ＮＡＳＡ／Ｊｏｅｌ　Ｋｏｗｓｋｙ／共同通信イメージズ　※ＭＡＮＤＡＴＯＲＹ　ＣＲＥＤＩＴ：　（ＮＡＳＡ／Ｊｏｅｌ　Ｋｏｗｓｋｙ）ＡＦＳ　８／１０１　－　Ｐｅｒｍａｎｅｎｔ

  商品コード: 2020102301165

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  2016年09月08日

  NASA‘s OSIRIS-REx Spacecraft Successfully Touches Asteroid

  September 8, 2016 - Cape Canaveral, Florida, USA - NASA Administrator Charles Bolden speaks to members of the launch team in the Atlas V Spaceflight Operations Center after the launch of a United Launch Alliance Atlas V rocket carrying NASA‘s Origins, Spectral Interpretation, Resource Identification, Security-Regolith Explorer (OSIRIS-REx) from the Atlas V Spaceflight Operations Center on Thursday, Sept. 8, 2016 at Cape Canaveral Air Force Station in Florida. OSIRIS-REx will be the first U.S. mission to sample an asteroid, retrieve at least two ounces of surface material and return it to Earth for study. The asteroid, Bennu, may hold clues to the origin of the solar system and the source of water and organic molecules found on Earth. (Credit Image: © NASA/ZUMA Wire/ZUMAPRESS.com)、クレジット：©ＮＡＳＡ／ＺＵＭＡ　Ｗｉｒｅ／ＺＵＭＡＰＲＥＳＳ．ｃｏｍ／共同通信イメージズ　※ＡＦＳ　８／１０１　－　Ｐｅｒｍａｎｅｎｔ

  商品コード: 2020102301205

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  2022年01月17日

  Drilling Holes On The Red Planet

  January 17, 2022 - Mars Surface - The Highfield drill hole, on Vera Rubin Ridge in Gale crater on Mars, made by NASA‘s Curiosity rover. Just recently, scientists announced that an analysis of rock samples collected by the rover were enriched in carbon 12, a type of carbon that on Earth is associated with biological processes. While the finding is intriguing, it doesn‘t necessarily point to ancient life on Mars, as scientists have not yet found conclusive supporting evidence of ancient or current biology there, such as sedimentary rock formations produced by ancient bacteria, or a diversity of complex organic molecules formed by life. The image of this drill hole was taken by the Mars Hand Lens Imager of the Curiosity rover on the 2,247th Martian day, or sol, of the mission. (Credit Image: © NASA/ZUMA Press Wire Service/ZUMAPRESS.com)、クレジット：©ＮＡＳＡ／ＺＵＭＡ　Ｐｒｅｓｓ　Ｗｉｒｅ　Ｓｅｒｖｉｃｅ／ＺＵＭＡＰＲＥＳＳ．ｃｏｍ／共同通信イメージズ

  商品コード: 2022011907393

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  2022年01月19日

  NASA‘s Mars Rver Finds Carbon ‘Associated With Life‘ On Mars

  January 19, 2022, United States: After analysing powdered rock samples collected from the surface of Mars by NASAââ¬â¢s Curiosity rover, scientists announced on Monday that several of the samples are rich in a type of carbon that on Earth is associated with biological processes..While the finding is intriguing, it doesnââ¬â¢t necessarily point to ancient life on Mars, as scientists have not yet found conclusive supporting evidence of ancient or current biology there, such as sedimentary rock formations produced by ancient bacteria, or a diversity of complex organic molecules formed by life..ââ¬ÅWeââ¬â¢re finding things on Mars that are tantalizingly interesting, but we would really need more evidence to say weââ¬â¢ve identified life,ââ¬Â said Paul Mahaffy, who served as the principal investigator of the Sample Analysis at Mars (SAM) chemistry lab aboard Curiosity until retiring from NASAââ¬â¢s Goddard Space Flight Center in Greenbelt, Maryland, in December 2021. ââ¬ÅSo weââ¬â¢re looking at what el...

  商品コード: 2022012002134

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  2022年01月19日

  NASA‘s Mars Rver Finds Carbon ‘Associated With Life‘ On Mars

  January 19, 2022, United States: After analysing powdered rock samples collected from the surface of Mars by NASAââ¬â¢s Curiosity rover, scientists announced on Monday that several of the samples are rich in a type of carbon that on Earth is associated with biological processes..While the finding is intriguing, it doesnââ¬â¢t necessarily point to ancient life on Mars, as scientists have not yet found conclusive supporting evidence of ancient or current biology there, such as sedimentary rock formations produced by ancient bacteria, or a diversity of complex organic molecules formed by life..ââ¬ÅWeââ¬â¢re finding things on Mars that are tantalizingly interesting, but we would really need more evidence to say weââ¬â¢ve identified life,ââ¬Â said Paul Mahaffy, who served as the principal investigator of the Sample Analysis at Mars (SAM) chemistry lab aboard Curiosity until retiring from NASAââ¬â¢s Goddard Space Flight Center in Greenbelt, Maryland, in December 2021. ââ¬ÅSo weââ¬â¢re looking at what el...

  商品コード: 2022012000144

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  2022年01月19日

  NASA‘s Mars Rver Finds Carbon ‘Associated With Life‘ On Mars

  January 19, 2022, United States: After analysing powdered rock samples collected from the surface of Mars by NASAââ¬â¢s Curiosity rover, scientists announced on Monday that several of the samples are rich in a type of carbon that on Earth is associated with biological processes..While the finding is intriguing, it doesnââ¬â¢t necessarily point to ancient life on Mars, as scientists have not yet found conclusive supporting evidence of ancient or current biology there, such as sedimentary rock formations produced by ancient bacteria, or a diversity of complex organic molecules formed by life..ââ¬ÅWeââ¬â¢re finding things on Mars that are tantalizingly interesting, but we would really need more evidence to say weââ¬â¢ve identified life,ââ¬Â said Paul Mahaffy, who served as the principal investigator of the Sample Analysis at Mars (SAM) chemistry lab aboard Curiosity until retiring from NASAââ¬â¢s Goddard Space Flight Center in Greenbelt, Maryland, in December 2021. ââ¬ÅSo weââ¬â¢re looking at what el...

  商品コード: 2022012000101

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  2022年06月07日

  NASA‘s Clipper Europa Ocean Moon Mission

  August 16, 2022 - USA - Europa Clipper‘s SUrface Dust Analyzer (SUDA) sensor head is shown in a clean room at the Laboratory for Atmospheric and Space Physics (LASP) at the University of Colorado Boulder. Tiny meteorites eject bits of Europa‘s surface into space and a subsurface ocean or in-ice water reservoirs might vent material into space as plumes. To study this, SUDA will scoop up larger particles from these plumes and identify their chemistry, revealing Europa‘s surface composition including potential organic molecules. SUDA can detect salts in the dust and ice grains, providing additional information about a subsurface ocean. If a subsurface ocean or reservoir is venting material into space as plumes, SUDA will help us to determine if Europa‘s water is suitable for some form of life (Credit Image: © JPL-Caltech/NASA/ZUMA Press Wire Service/ZUMAPRESS.com)、クレジット：©ＪＰＬ－Ｃａｌｔｅｃｈ／ＮＡＳＡ／ＺＵＭＡ　Ｐｒｅｓｓ　Ｗｉｒｅ　Ｓｅｒｖｉｃｅ／ＺＵＭＡＰＲＥＳＳ．ｃｏｍ／共同通信イメージズ

  商品コード: 2022082500043

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  2022年06月07日

  NASA‘s Clipper Europa Ocean Moon Mission

  August 16, 2022 - USA - Europa Clipper‘s SUrface Dust Analyzer (SUDA) sensor head is shown in a clean room at the Laboratory for Atmospheric and Space Physics (LASP) at the University of Colorado Boulder. Tiny meteorites eject bits of Europa‘s surface into space and a subsurface ocean or in-ice water reservoirs might vent material into space as plumes. To study this, SUDA will scoop up larger particles from these plumes and identify their chemistry, revealing Europa‘s surface composition including potential organic molecules. SUDA can detect salts in the dust and ice grains, providing additional information about a subsurface ocean. If a subsurface ocean or reservoir is venting material into space as plumes, SUDA will help us to determine if Europa‘s water is suitable for some form of life (Credit Image: © JPL-Caltech/NASA/ZUMA Press Wire Service/ZUMAPRESS.com)、クレジット：©ＪＰＬ－Ｃａｌｔｅｃｈ／ＮＡＳＡ／ＺＵＭＡ　Ｐｒｅｓｓ　Ｗｉｒｅ　Ｓｅｒｖｉｃｅ／ＺＵＭＡＰＲＥＳＳ．ｃｏｍ／共同通信イメージズ

  商品コード: 2022082503028

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  2022年06月07日

  NASA‘s Clipper Europa Ocean Moon Mission

  August 16, 2022 - USA - Europa Clipper‘s SUrface Dust Analyzer (SUDA) sensor head is shown in a clean room at the Laboratory for Atmospheric and Space Physics (LASP) at the University of Colorado Boulder. Tiny meteorites eject bits of Europa‘s surface into space and a subsurface ocean or in-ice water reservoirs might vent material into space as plumes. To study this, SUDA will scoop up larger particles from these plumes and identify their chemistry, revealing Europa‘s surface composition including potential organic molecules. SUDA can detect salts in the dust and ice grains, providing additional information about a subsurface ocean. If a subsurface ocean or reservoir is venting material into space as plumes, SUDA will help us to determine if Europa‘s water is suitable for some form of life (Credit Image: © JPL-Caltech/NASA/ZUMA Press Wire Service/ZUMAPRESS.com)、クレジット：©ＪＰＬ－Ｃａｌｔｅｃｈ／ＮＡＳＡ／ＺＵＭＡ　Ｐｒｅｓｓ　Ｗｉｒｅ　Ｓｅｒｖｉｃｅ／ＺＵＭＡＰＲＥＳＳ．ｃｏｍ／共同通信イメージズ

  商品コード: 2022082500045

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  2023年01月24日

  James Webb Space Telescope Unveils Dark Side of Pre-Stellar Ice Chemistry

  January 24, 2023, United States: This image by NASAââ¬â¢s James Webb Space Telescopeââ¬â¢s Near-Infrared Camera (NIRCam) features the central region of the Chamaeleon I dark molecular cloud, which resides 630 light years away. The cold, wispy cloud material (blue, center) is illuminated in the infrared by the glow of the young, outflowing protostar Ced 110 IRS 4 (orange, upper left). The light from numerous background stars, seen as orange dots behind the cloud, can be used to detect ices in the cloud, which absorb the starlight passing through them...An international team of astronomers using NASAââ¬â¢s James Webb Space Telescope has obtained an in-depth inventory of the deepest, coldest ices measured to date in a molecular cloud. In addition to simple ices like water, the team was able to identify frozen forms of a wide range of molecules, from carbonyl sulfide, ammonia, and methane, to the simplest complex organic molecule, methanol. (The researchers considered organic molecules to be complex when ha...

  商品コード: 2023012506433