{ "count": 11, "next": null, "previous": null, "results": [ { "id": 14666, "url": "https://svs.gsfc.nasa.gov/14666/", "result_type": "Produced Video", "release_date": "2025-11-13T12:00:00-05:00", "title": "ESCAPADE Launch Phase and Deployment Animations", "description": "The Escape and Plasma Acceleration and Dynamics Explorers, or ESCAPADE, will use two identical spacecraft to investigate how the solar wind interacts with Mars’ magnetic environment and how this interaction drives the planet’s atmospheric escape. The first multi-spacecraft orbital science mission to the Red Planet, ESCAPADE’s twin orbiters will take simultaneous observations from different locations around Mars to reveal the planet’s real-time response to space weather and how the Martian magnetosphere changes over time.The ESCAPADE mission will be carried into orbit on the second launch of Blue Origin’s New Glenn rocket. New Glenn is a single-configuration, heavy-lift orbital launch vehicle capable of routinely carrying both spacecraft and people to low Earth orbits, geostationary transfer orbits, cislunar orbits (between Earth and the Moon), and beyond via Earth-departure orbits like the one required for ESCAPADE. The vehicle is named after John Glenn, the first American astronaut to orbit Earth.The ESCAPADE mission is managed by the Space Sciences Laboratory at the University of California, Berkeley, with key partners Rocket Lab, NASA's Goddard Space Flight Center, Embry-Riddle Aeronautical University, Advanced Space LLC, and Blue Origin. || ", "hits": 121 }, { "id": 14920, "url": "https://svs.gsfc.nasa.gov/14920/", "result_type": "Produced Video", "release_date": "2025-11-13T12:00:00-05:00", "title": "Preparing for Martian Explorers: NASA's ESCAPADE Investigates Mars Space Weather", "description": "NASA’s new ESCAPADE mission is launching to Mars to help us better understand the Sun’s influence on Mars’ past and present. Its work could help protect future human explorers from potentially dangerous space weather when they set foot on the Red Planet.For the first time, the mission will use two identical spacecraft to investigate how the solar wind interacts with Mars’ magnetic environment and how this interaction drives the planet’s atmospheric escape. Its observations will reveal the planet’s real-time response to space weather and how the Martian magnetosphere changes over time.The ESCAPADE orbiters build on earlier Mars missions, such as NASA’s MAVEN (Mars Atmosphere and Volatile Evolution) orbiter. The MAVEN mission has one spacecraft that has been studying Mars’ atmospheric loss since arriving at the Red Planet in 2014.ESCAPADE is scheduled to launch no earlier than fall 2025 from Cape Canaveral Space Force Station Launch Complex 36 in Florida.Find out more about the ESCAPADE mission: https://science.nasa.gov/mission/escapade/ || ", "hits": 155 }, { "id": 14915, "url": "https://svs.gsfc.nasa.gov/14915/", "result_type": "Produced Video", "release_date": "2025-11-13T00:00:00-05:00", "title": "ESCAPADE Trajectory Animations", "description": "The Escape and Plasma Acceleration and Dynamics Explorers, or ESCAPADE, mission will use two identical spacecraft to investigate how the solar wind interacts with Mars’ magnetic environment and how this interaction drives the planet’s atmospheric escape. The first multi-spacecraft orbital science mission to the Red Planet, ESCAPADE’s twin orbiters will take simultaneous observations from different locations around Mars to reveal the planet’s real-time response to space weather and how the Martian magnetosphere changes over time.The ESCAPADE mission is being carried into orbit on the second launch of Blue Origin’s New Glenn rocket (NG-2) and is scheduled to launch in November 2025 from Cape Canaveral, Florida. New Glenn is a single-configuration, heavy-lift orbital launch vehicle capable of routinely carrying both spacecraft and people to low Earth orbits, geostationary transfer orbits, cislunar orbits (between Earth and the Moon), and beyond via Earth-departure orbits like the one required for ESCAPADE. The vehicle is named after John Glenn, the first American astronaut to orbit Earth.The ESCAPADE mission is managed by the Space Sciences Laboratory at the University of California, Berkeley, with key partners Rocket Lab, NASA's Goddard Space Flight Center, Embry-Riddle Aeronautical University, Advanced Space LLC, and Blue Origin.Below are animations demonstrating the different phases of the mission's trajectory from traveling from Earth to Mars to implementing its science orbits around the Red Planet. || ", "hits": 537 }, { "id": 14918, "url": "https://svs.gsfc.nasa.gov/14918/", "result_type": "Produced Video", "release_date": "2025-11-11T00:00:00-05:00", "title": "ESCAPADE Prepares for Flight (2025)", "description": "The Escape and Plasma Acceleration and Dynamics Explorers, or ESCAPADE, will use two identical spacecraft to investigate how the solar wind interacts with Mars’ magnetic environment and how this interaction drives the planet’s atmospheric escape. The first multi-spacecraft orbital science mission to the Red Planet, ESCAPADE’s twin orbiters will take simultaneous observations from different locations around Mars to reveal the planet’s real-time response to space weather and how the Martian magnetosphere changes over time.The ESCAPADE mission is being carried into orbit on the second launch of Blue Origin’s New Glenn rocket (NG-2) and is scheduled to launch in November 2025 from Cape Canaveral, Florida. New Glenn is a single-configuration, heavy-lift orbital launch vehicle capable of routinely carrying both spacecraft and people to low Earth orbits, geostationary transfer orbits, cislunar orbits (between Earth and the Moon), and beyond via Earth-departure orbits like the one required for ESCAPADE. The vehicle is named after John Glenn, the first American astronaut to orbit Earth.The ESCAPADE mission is managed by the Space Sciences Laboratory at the University of California, Berkeley, with key partners Rocket Lab, NASA's Goddard Space Flight Center, Embry-Riddle Aeronautical University, Advanced Space LLC, and Blue Origin. || ", "hits": 277 }, { "id": 14675, "url": "https://svs.gsfc.nasa.gov/14675/", "result_type": "Produced Video", "release_date": "2024-09-03T17:00:00-04:00", "title": "ESCAPADE Testing and Integration", "description": "The Escape and Plasma Acceleration and Dynamics Explorers, or ESCAPADE, will use two identical spacecraft to investigate how the solar wind interacts with Mars’ magnetic environment and how this interaction drives the planet’s atmospheric escape.The spacecraft were designed, built, integrated, and tested by Rocket Lab at their Spacecraft Production Complex and Headquarters in Long Beach, California. Based on Rocket Lab’s Explorer spacecraft, a configurable, high delta-V interplanetary platform, the duo features Rocket Lab-built components and subsystems, including solar panels, star trackers, propellant tanks, reaction wheels, reaction control systems, radios, and more.The ESCAPADE mission is managed by the Space Sciences Laboratory at the University of California, Berkeley, with key partners Rocket Lab, NASA's Goddard Space Flight Center, Embry-Riddle Aeronautical University, Advanced Space LLC, and Blue Origin. || ", "hits": 66 }, { "id": 14664, "url": "https://svs.gsfc.nasa.gov/14664/", "result_type": "Produced Video", "release_date": "2024-08-23T16:00:00-04:00", "title": "ESCAPADE Mission Trailer", "description": "The Escape and Plasma Acceleration and Dynamics Explorers, or ESCAPADE, will use two identical spacecraft to investigate how the solar wind interacts with Mars’ magnetic environment and how this interaction drives the planet’s atmospheric escape.The first coordinated multi-spacecraft orbital science mission to the Red Planet, ESCAPADE’s twin orbiters will take simultaneous observations from different locations around Mars to reveal the planet’s real-time response to space weather and how the Martian magnetosphere changes over time.ESCAPADE will analyze how Mars’ magnetic field guides particle flows around the planet, how energy and momentum are transported from the solar wind through the magnetosphere, and what processes control the flow of energy and matter into and out of the Martian atmosphere. The data returned from the ESCAPADE spacecraft will provide new insight into the evolution of Mars’ climate, contributing to the body of research investigating how Mars began losing its atmosphere and water system.The ESCAPADE mission is managed by the Space Sciences Laboratory at the University of California, Berkeley, with key partners Rocket Lab, NASA's Goddard Space Flight Center, Embry-Riddle Aeronautical University, Advanced Space LLC, and Blue Origin. || ", "hits": 70 }, { "id": 14665, "url": "https://svs.gsfc.nasa.gov/14665/", "result_type": "Produced Video", "release_date": "2024-08-21T09:00:00-04:00", "title": "ESCAPADE Spacecraft Development Images", "description": "The Escape and Plasma Acceleration and Dynamics Explorers, or ESCAPADE, will use two identical spacecraft to investigate how the solar wind interacts with Mars’ magnetic environment and how this interaction drives the planet’s atmospheric escape.The first coordinated multi-spacecraft orbital science mission to the Red Planet, ESCAPADE’s twin orbiters will take simultaneous observations from different locations around Mars to reveal the planet’s real-time response to space weather and how the Martian magnetosphere changes over time. The data returned from the ESCAPADE spacecraft will provide new insight into the evolution of Mars’ climate, contributing to the body of research investigating how Mars began losing its atmosphere and water system.The ESCAPADE mission is managed by the Space Sciences Laboratory at the University of California, Berkeley, with key partners Rocket Lab, NASA's Goddard Space Flight Center, Embry-Riddle Aeronautical University, Advanced Space LLC, and Blue Origin.The spacecraft were designed, built, integrated, and tested at Rocket Lab’s Spacecraft Production Complex and headquarters in Long Beach, California. Based on Rocket Lab’s Explorer spacecraft, a configurable, high delta-V interplanetary platform, the duo features Rocket Lab-built components and subsystems, including solar panels, star trackers, propellant tanks, reaction wheels, reaction control systems, radios, and more. || ", "hits": 41 }, { "id": 14641, "url": "https://svs.gsfc.nasa.gov/14641/", "result_type": "Infographic", "release_date": "2024-07-30T15:00:00-04:00", "title": "ESCAPADE Mission Posters", "description": "The Escape and Plasma Acceleration and Dynamics Explorers, or ESCAPADE, will use two identical spacecraft to investigate how the solar wind interacts with Mars’ magnetic environment and how this interaction drives the planet’s atmospheric escape.The first coordinated multi-spacecraft orbital science mission to the Red Planet, ESCAPADE’s twin orbiters will take simultaneous observations from different locations around Mars to reveal the planet’s real-time response to space weather and how the Martian magnetosphere changes over time.ESCAPADE will analyze how Mars’ magnetic field guides particle flows around the planet, how energy and momentum are transported from the solar wind through the magnetosphere, and what processes control the flow of energy and matter into and out of the Martian atmosphere. The data returned from the ESCAPADE spacecraft will provide new insight into the evolution of Mars’ climate, contributing to the body of research investigating how Mars began losing its atmosphere and water system.The ESCAPADE mission is managed by the Space Sciences Laboratory at the University of California, Berkeley, with key partners Rocket Lab, NASA's Goddard Space Flight Center, Embry-Riddle Aeronautical University, Advanced Space LLC, and Blue Origin. || ", "hits": 51 }, { "id": 14642, "url": "https://svs.gsfc.nasa.gov/14642/", "result_type": "Infographic", "release_date": "2024-07-30T15:00:00-04:00", "title": "ESCAPADE Spacecraft Specifications", "description": "The Escape and Plasma Acceleration and Dynamics Explorers (ESCAPADE) mission, led by Rob Lillis at the University of California, Berkeley, Space Sciences Laboratory (UCBSSL), is a twin-spacecraft science mission that will orbit two spacecraft around Mars to understand the structure, composition, variability, and dynamics of Mars' unique hybrid magnetosphere. The mission will leverage its unique dual viewpoint on the Mars environment to explore how the solar wind strips atmosphere away from Mars to better understand how its climate has changed over time. ESCAPADE is being developed under NASA’s Small Innovative Missions for Planetary Exploration (SIMPLEx) program in the Science Mission Directorate (SMD). The mission is led by UCBSSL with spacecraft design provided by Rocket Lab.The spacecraft were designed, built, integrated, and tested at Rocket Lab’s Spacecraft Production Complex and headquarters in Long Beach, California. Based on Rocket Lab’s Explorer spacecraft, a configurable, high delta-V interplanetary platform, the duo features Rocket Lab-built components and subsystems, including solar panels, star trackers, propellant tanks, reaction wheels, reaction control systems, radios, and more. || ", "hits": 187 }, { "id": 14635, "url": "https://svs.gsfc.nasa.gov/14635/", "result_type": "Produced Video", "release_date": "2024-07-22T12:00:00-04:00", "title": "ESCAPADE Mission Spacecraft Beauty Passes", "description": "NASA’s Escape and Plasma Acceleration and Dynamics Explorers (ESCAPADE) mission will study the interaction between the solar wind and Martian atmosphere. Two identical spacecraft will orbit around the Red Planet to understand the structure, composition, variability, and dynamics of Mars’ unique hybrid magnetosphere, including its real-time response to space weather.The mission will leverage its unique dual viewpoint on the Mars environment to explore how the solar wind strips atmosphere away from Mars to better understand how its climate has changed over time — so much that Mars no longer supports liquid water on its surface. The pair will be the first coordinated multi-spacecraft orbital science mission to Mars.ESCAPADE is part of the NASA Small Innovative Missions for Planetary Exploration (SIMPLEx) program. The mission is managed by the University of California Berkeley’s Space Sciences Laboratory, with key partners Rocket Lab, NASA Goddard Space Flight Center, Embry-Riddle Aeronautical University, Advanced Space LLC, and Blue Origin. || ", "hits": 142 }, { "id": 10195, "url": "https://svs.gsfc.nasa.gov/10195/", "result_type": "Produced Video", "release_date": "2014-09-21T00:00:00-04:00", "title": "Mars Orbit Insertion Highlights", "description": "MAVEN MOI Broadcast Highlights ReelThis is a 10-minute highlights reel of the live NASA TV broadcast of MAVEN arriving at Mars. || MAVEN_MOI_Broadcast_screenshot.png (1401x786) [766.9 KB] || MAVEN_MOI_Broadcast_screenshot_print.jpg (1024x574) [69.7 KB] || MAVEN_MOI_Broadcast_screenshot_searchweb.png (320x180) [52.8 KB] || MAVEN_MOI_Broadcast_screenshot_web.png (320x179) [52.8 KB] || MAVEN_MOI_Broadcast_screenshot_thm.png (80x40) [6.9 KB] || MAVEN_MOI_Broadcast_Highlights_Reel_1280x720.wmv (1280x720) [351.1 MB] || MAVEN_MOI_Broadcast_Highlights_Reel_appletv.m4v (960x540) [292.1 MB] || MAVEN_MOI_Broadcast_Highlights_Reel_youtube_hq.mov (1280x720) [1.5 GB] || MAVEN_MOI_Broadcast_Highlights_Reel_prores.mov (1280x720) [10.3 GB] || MAVEN_MOI_Broadcast_Highlights_Reel_720x480.webmhd.webm (960x540) [148.2 MB] || MAVEN_MOI_Broadcast_Highlights_Reel_nasaportal.mov (640x360) [288.4 MB] || MAVEN_MOI_Broadcast_Highlights_Reel_720x480.wmv (720x480) [338.9 MB] || MAVEN_MOI_Broadcast_Highlights_Reel_ipod_lg.m4v (640x360) [115.1 MB] || MAVEN_MOI_Broadcast_Highlights_Reel_ipod_sm.mp4 (320x240) [61.4 MB] || ", "hits": 70 } ] }