{ "count": 16, "next": null, "previous": null, "results": [ { "id": 14944, "url": "https://svs.gsfc.nasa.gov/14944/", "result_type": "Produced Video", "release_date": "2026-01-06T16:00:00-05:00", "title": "Black Aurora Rocket Instrument Testing at NASA Goddard", "description": "NASA’s Black and Diffuse Aurora Science Surveyor sounding rocket mission has completed its testing campaign at NASA’s Goddard Space Flight Center in Greenbelt, Maryland, ahead of its launch. Sounding rocket missions like this one are suborbital rockets that fly scientific instruments into near-Earth space for short, approximately 15-minute flights. The mission will study so-called “black auroras,” dark patches and stripes that appear within an aurora. Previous research has hinted that they may be formed by electrons going upward escaping back out into space (rather than the absence of any electrons). The visible aurora is formed by an incoming downward stream of electrons. Scientists want to solve the puzzle as to why these patches and stripes form within the visible aurora. From Goddard, the instruments were delivered to Wallops Flight Facility, where they – along with the entire rocket payload – will be shipped to the Poker Flat Research Range in Fairbanks, Alaska, where the team aims to fly their rocket through black aurora. Onboard instruments will survey the electron populations as they fly through them to understand how and why these black patches and stripes form within the visible aurora. The mission is scheduled for launch no earlier than February 2026. || ", "hits": 44 }, { "id": 4638, "url": "https://svs.gsfc.nasa.gov/4638/", "result_type": "Visualization", "release_date": "2018-10-10T11:00:00-04:00", "title": "Pulsar Current Sheets - Magnetic Field Solution", "description": "This movie presents a basic tour around the simulation magnetic field. 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This version is generated with some simple reference objects for more general use. || PulsarParticles_grid_bulk_positrons_electrons_tour_inertial.HD1080i.01001_print.jpg (1024x576) [172.3 KB] || tour-glyph (1920x1080) [0 Item(s)] || PulsarParticles_grid_bulk_positrons_electrons_tour.HD1080i_p30.webm (1920x1080) [9.4 MB] || PulsarParticles_grid_bulk_positrons_electrons_tour.HD1080i_p30.mp4 (1920x1080) [148.0 MB] || tour-glyph (3840x2160) [0 Item(s)] || PulsarParticles_grid_bulk_positrons_electrons_tour_2160p30.mp4 (3840x2160) [375.4 MB] || PulsarParticles_grid_bulk_positrons_electrons_tour.HD1080i_p30.mp4.hwshow [228 bytes] || ", "hits": 87 }, { "id": 30944, "url": "https://svs.gsfc.nasa.gov/30944/", "result_type": "Hyperwall Visual", "release_date": "2018-05-07T10:00:00-04:00", "title": "Vision Across the Full Spectrum: The Crab Nebula, from Radio to X-ray", "description": "This animation shows the Crab Nebula from the lowest-frequency light (radio), to infrared, visible, ultraviolet, and finally X-ray. || STScI-H-CrabNebula_1x-1920x1080.00001_print.jpg (1024x576) [40.4 KB] || STScI-H-CrabNebula_1x-1920x1080.00001_searchweb.png (320x180) [26.4 KB] || STScI-H-CrabNebula_1x-1920x1080.00001_thm.png (80x40) [2.3 KB] || STScI-H-CrabNebula_1x-1280x720.mp4 (1280x720) [3.8 MB] || STScI-H-CrabNebula_1x-1920x1080.mp4 (1920x1080) [7.1 MB] || 1920x1080_16x9_30p (1920x1080) [0 Item(s)] || STScI-H-CrabNebula_1x-1920x1080.webm (1920x1080) [8.0 MB] || STScI-H-CrabNebula_1x-640x360.mp4 (640x360) [1.4 MB] || STScI-H-CrabNebula_1x-3840x2160.mp4 (3840x2160) [16.2 MB] || STScI-H-CrabNebula_1x-H265_3840x2160.mp4 (3840x2160) [3.5 MB] || 3840x2160_16x9_30p (3840x2160) [0 Item(s)] || ", "hits": 307 }, { "id": 20252, "url": "https://svs.gsfc.nasa.gov/20252/", "result_type": "Animation", "release_date": "2017-10-18T12:00:00-04:00", "title": "Phobos Electric Charging", "description": "The interaction of the solar wind with the Martian moon Phobos creates a complex electrical environment that could impact future exploration. Complete transcript available.Watch this video on the NASA Goddard YouTube channel.Music provided by Killer Tracks: \"Innovations\" by Pascal Lengagne || PhobosChargingPreview.jpg (3840x2160) [1.6 MB] || PhobosChargingPreview_print.jpg (1024x576) [193.8 KB] || PhobosChargingPreview_searchweb.png (320x180) [95.8 KB] || PhobosChargingPreview_thm.png (80x40) [7.2 KB] || TWITTER_720-20252_Phobos_Electric_Charging_APR_twitter_720.mp4 (1280x720) [34.1 MB] || WEBM-20252_Phobos_Electric_Charging_APR.webm (960x540) [59.7 MB] || FACEBOOK_720-20252_Phobos_Electric_Charging_APR_facebook_720.mp4 (1280x720) [196.8 MB] || 20252_Phobos_Electric_Charging_APR_Output.en_US.srt [3.0 KB] || 20252_Phobos_Electric_Charging_APR_Output.en_US.vtt [3.0 KB] || YOUTUBE_4K-20252_Phobos_Electric_Charging_APR_youtube_4k.mp4 (3840x2160) [644.3 MB] || 20252_Phobos_Electric_Charging_APR.mov (3840x2160) [12.8 GB] || ", "hits": 58 }, { "id": 12328, "url": "https://svs.gsfc.nasa.gov/12328/", "result_type": "Produced Video", "release_date": "2016-08-15T10:00:00-04:00", "title": "Supercharging the Radiation Belts", "description": "On March 17, 2015, an interplanetary shock – a shockwave created by the driving force of a coronal mass ejection, or CME, from the sun – struck the outermost radiation belt, triggering the greatest geomagnetic storm of the preceding decade. And NASA's Van Allen Probes were there to watch it. One of the most common forms of space weather, a geomagnetic storm describes any event in which Earth’s magnetic environment – called the magnetosphere – is suddenly, temporarily disturbed. Such an event can also lead to change in the radiation belts surrounding Earth, but researchers have seldom been able to observe what happens within the first few minutes immediately following a shock. But on the day of the March 2015 geomagnetic storm, one of the Van Allen Probes was located at just the right spot within the radiation belts, providing unprecedentedly high-resolution data from a rarely witnessed phenomenon. A paper on these observations was published in the Journal of Geophysical Research on Aug. 15, 2016. || ", "hits": 78 }, { "id": 10278, "url": "https://svs.gsfc.nasa.gov/10278/", "result_type": "Produced Video", "release_date": "2014-12-15T13:29:00-05:00", "title": "NASA's Fermi Helps Scientists Study Gamma-ray Thunderstorms", "description": "New research merging Fermi data with information from ground-based radar and lightning networks shows that terrestrial gamma-ray flashes arise from an unexpected diversity of storms and may be more common than currently thought. Watch this video on the NASA Goddard YouTube channel. For complete transcript, click here. || Florida_TGF_still_print.jpg (1024x576) [115.1 KB] || Florida_TGF_still.jpg (1280x720) [169.4 KB] || Florida_TGF_still_thm.png (80x40) [8.7 KB] || Florida_TGF_still_searchweb.png (320x180) [75.0 KB] || Florida_TGF_still_web.jpg (320x180) [20.8 KB] || G2014-107_Fermi_TGF_Radar_FINAL_appletv_subtitles.m4v (960x540) [66.4 MB] || 10278_Fermi_TGF_Radar_ProRes_1280x720_5994.mov (1280x720) [2.7 GB] || G2014-107_Fermi_TGF_Radar_FINAL_appletv.webm (960x540) [21.7 MB] || G2014-107_Fermi_TGF_Radar_FINAL_appletv.m4v (960x540) [66.5 MB] || 10278_Fermi_TGF_Radar_MPEG4_1280X720_2997.mp4 (1280x720) [36.8 MB] || G2014-107_Fermi_TGF_Radar_FINAL_1280x720.wmv (1280x720) [62.5 MB] || 10278_Fermi_TGF_Radar_H264_Good_1280x720_2997.mov (1280x720) [65.2 MB] || 10278_Fermi_TGF_Radar_H264_Best_1280x720_5994.mov (1280x720) [801.8 MB] || G2014-107_Fermi_TGF_Radar_FINAL_ipod_lg.m4v (640x360) [28.5 MB] || 10278_Fermi_TGF_Radar_SRT_Captions.en_US.vtt [3.7 KB] || 10278_Fermi_TGF_Radar_SRT_Captions.en_US.srt [3.7 KB] || G2014-107_Fermi_TGF_Radar_FINAL_ipod_sm.mp4 (320x240) [13.0 MB] || ", "hits": 68 }, { "id": 10706, "url": "https://svs.gsfc.nasa.gov/10706/", "result_type": "Produced Video", "release_date": "2011-01-10T16:00:00-05:00", "title": "Terrestrial Gamma-ray Flashes Create Antimatter", "description": "NASA's Fermi Gamma-ray Space Telescope has detected beams of antimatter launched by thunderstorms. Acting like enormous particle accelerators, the storms can emit gamma-ray flashes, called TGFs, and high-energy electrons and positrons. Scientists now think that most TGFs produce particle beams and antimatter.For additional animations showing bremsstrahlung and pair production gamma ray reactions, go here.For more visualizations showing Fermi's TGF detections, go to#3747, #3748, and #3756.For animations of the Fermi spacecraft and matter/antimatter, go to#10707 and #10651. || ", "hits": 250 }, { "id": 20056, "url": "https://svs.gsfc.nasa.gov/20056/", "result_type": "Animation", "release_date": "2005-03-30T12:00:00-05:00", "title": "Earth's Magnetic Field to Aurora", "description": "Join a ride with electrons along the Earth's magnetic field line to the formation site of the aurora. || ", "hits": 165 }, { "id": 20057, "url": "https://svs.gsfc.nasa.gov/20057/", "result_type": "Animation", "release_date": "2005-03-30T12:00:00-05:00", "title": "A CME Generates Reconnection in Earth's Magnetic Field", "description": "A burst of fast material from the Sun generates magnetic reconnection events in the Earth's magnetic field. This eventually sends high-speed electrons and protons into the Earth's upper atmosphere to form aurora. || ", "hits": 75 }, { "id": 2750, "url": "https://svs.gsfc.nasa.gov/2750/", "result_type": "Visualization", "release_date": "2003-09-02T12:00:00-04:00", "title": "RHESSI Observes 2.2 MeV Line Emission from a Solar Flare", "description": "The solar flare at Active Region 10039 on July 23, 2002 exhibits many exceptional high-energy phenomena including the 2.223 MeV neutron capture line and the 511 keV electron-positron (antimatter) annihilation line. In the animation, the RHESSI low-energy channels (12-25 keV) are represented in red and appears predominantly in coronal loops. The high-energy flux appears as blue at the footpoints of the coronal loops. Violet is used to indicate the location and relative intensity of the 2.2MeV emission. || ", "hits": 37 }, { "id": 182, "url": "https://svs.gsfc.nasa.gov/182/", "result_type": "Visualization", "release_date": "1998-01-01T12:00:00-05:00", "title": "Positron-electron Annihilation", "description": "Animation of positron-electron annihilation || a000182.00030_print.png (720x480) [453.0 KB] || a000182_pre.jpg (320x242) [5.2 KB] || a000182.webmhd.webm (960x540) [1.7 MB] || a000182.dv (720x480) [35.5 MB] || a000182.mp4 (640x480) [2.0 MB] || a000182.mpg (352x240) [1.4 MB] || ", "hits": 462 } ] }