Mars Express detects liquid water hidden under planet’s south pole
July 25, 2018: Radar data collected by the European Space Agency’s Mars Express spacecraft point to a pond of liquid water buried under layers of ice and dust in the south polar region of Mars. Evidence for the Red Planet’s watery past is prevalent across its surface in the form of vast dried-out river valley networks and gigantic outflow channels clearly imaged by orbiting spacecraft. Orbiters, together with landers and rovers exploring the martian surface, also discovered minerals that can only form in the presence of liquid water.
But the climate has changed significantly over the course of the planet’s 4.6 billion year history and liquid water cannot exist on the surface today, so scientists are looking underground. Early results from the 15-year old Mars Express spacecraft already found that water-ice exists at the planet’s poles and is also buried in layers interspersed with dust.
The presence of liquid water at the base of the polar ice caps has long been suspected; after all, from studies on Earth, it is well known that the melting point of water decreases under the pressure of an overlying glacier. Moreover, the presence of salts on Mars could further reduce the melting point of water and keep the water liquid even at below-freezing temperatures.
But until now evidence from the Mars Advanced Radar for Subsurface and Ionosphere Sounding instrument, MARSIS, the first radar sounder ever to orbit another planet, remained inconclusive.
It has taken the persistence of scientists working with this subsurface-probing instrument to develop new techniques in order to collect as much high-resolution data as possible to confirm their exciting conclusion.
Ground-penetrating radar uses the method of sending radar pulses towards the surface and timing how long it takes for them to be reflected back to the spacecraft, and with what strength. The properties of the material that lies between influences the returned signal, which can be used to map the subsurface topography.
The radar investigation shows that south polar region of Mars is made of many layers of ice and dust down to a depth of about 1.5 km in the 200 km-wide area analysed in this study. A particularly bright radar reflection underneath the layered deposits is identified within a 20 km-wide zone.
Analysing the properties of the reflected radar signals and considering the composition of the layered deposits and expected temperature profile below the surface, the scientists interpret the bright feature as an interface between the ice and a stable body of liquid water, which could be laden with salty, saturated sediments. For MARSIS to be able to detect such a patch of water, it would need to be at least several tens of centimeters thick.
“This subsurface anomaly on Mars has radar properties matching water or water-rich sediments,” says Roberto Orosei, principal investigator of the MARSIS experiment and lead author of the paper published in the journal Science today:
http://science.sciencemag.org/content/early/2018/07/24/science.aar7268
“This is just one small study area; it is an exciting prospect to think there could be more of these underground pockets of water elsewhere, yet to be discovered.”
“We’d seen hints of interesting subsurface features for years but we couldn’t reproduce the result from orbit to orbit, because the sampling rates and resolution of our data was previously too low,” adds Andrea Cicchetti, MARSIS operations manager and a co-author on the new paper.
“We had to come up with a new operating mode to bypass some onboard processing and trigger a higher sampling rate and thus improve the resolution of the footprint of our dataset: now we see things that simply were not possible before.”
The finding is somewhat reminiscent of Lake Vostok, discovered some 4 km below the ice in Antarctica on Earth. Some forms of microbial life are known to thrive in Earth’s subglacial environments, but could underground pockets of salty, sediment-rich liquid water on Mars also provide a suitable habitat, either now or in the past? Whether life has ever existed on Mars remains an open question, and is one that Mars missions, including the current European-Russian ExoMars orbiter and future rover, will continue to explore.
“The long duration of Mars Express, and the exhausting effort made by the radar team to overcome many analytical challenges, enabled this much-awaited result, demonstrating that the mission and its payload still have a great science potential,” says Dmitri Titov, ESA’s Mars Express project scientist.
“This thrilling discovery is a highlight for planetary science and will contribute to our understanding of the evolution of Mars, the history of water on our neighbor planet and its habitability.”
Mars Express launched June 2, 2003 and celebrates 15 years in orbit on December 25 this year.
Notes for editors
“Radar evidence of subglacial liquid water on Mars” by R. Orosei et al is published in the journal Science:
http://science.sciencemag.org/content/early/2018/07/24/science.aar7268
The MARSIS instrument was funded by the Italian Space Agency (ASI) and NASA and developed by the University of Rome, Italy, in partnership with NASA’s Jet Propulsion Laboratory.
Credit: European Space Agency (ESA)
Image Date: December 17, 2012
Release Date: July 25, 2018
#ESA #NASA #Astronomy #Space #Science #Mars #Planet #SouthPole #Liquid #Water #Ice #Life #Habitability #Astrobiology #Radar #MARSIS #MarsExpress #Spacecraft #Europe #JPL #UnitedStates #ASI #Italy #Italia #STEM #Education
Friends of NASA (FoN) is an independent non-governmental organization (NGO) dedicated to building international support for peaceful space exploration, commerce, scientific discovery, and STEM education.
Thursday, July 26, 2018
Wednesday, July 25, 2018
Ariane 5 Heavy Lift Rocket Overview | Arianespace
"Arianespace’s Ariane 5 is the world reference for heavy-lift launchers, able to carry payloads weighing more than 10 metric tons to geostationary transfer orbit (GTO) and over 20 metric tons into low-Earth orbit (LEO)—with a high degree of accuracy mission after mission. This performance ensures that Ariane 5 will be able to loft the heaviest spacecraft either in production or on the drawing boards, and enables Arianespace to match up most telecommunications satellites for highly efficient dual launches—a capability that has been proven by the company in Ariane-series missions since the 1980s."
NASA's James Webb Space Telescope will be launched on an Ariane 5 rocket. The launch vehicle is part of the European contribution to the mission. The Ariane 5 is one of the world's most reliable launch vehicles capable of delivering Webb to its destination in space. The European Space Agency (ESA) has agreed to provide an Ariane 5 launcher and associated launch services to NASA for Webb. The James Webb Space Telescope is the scientific successor to NASA's Hubble Space Telescope. It will be the most powerful space telescope ever built. Webb is an international project led by NASA with its partners, ESA (European Space Agency) and the Canadian Space Agency.
Dual-Passenger Capability
Industrial Prime Contractor: Airbus Safran Launchers
Payload to geostationary transfer orbit (GTO): 10 t
Payload to low-Earth orbit (LEO): 20 t
Ariane 5 ECA Technical Overview
Height: 50.5 m
Diameter: 5.4 m
Mass: 780 t
Ariane 5 PDF Brochure (English)
http://www.arianespace.com/wp-content/uploads/2015/10/Ariane5_Brochure_Nov2016.pdf
Ariane 5 PDF User’s Manual (English)
http://www.arianespace.com/wp-content/uploads/2011/07/Ariane5_Users-Manual_October2016.pdf
About Arianespace
"Arianespace uses space to make life better on Earth by providing launch services for all types of satellites into all orbits. It has orbited more than 570 satellites since 1980, using its family of three launchers, Ariane, Soyuz and Vega, from launch sites in French Guiana (South America) and Baikonur, Kazakhstan. Arianespace is headquartered in Evry, near Paris, and has a technical facility at the Guiana Space Center, Europe’s Spaceport in French Guiana, plus local offices in Washington, D.C., Tokyo and Singapore. Arianespace is a subsidiary of ArianeGroup, which holds 74% of its share capital, with the balance held by 17 other shareholders from the European launcher industry."
NASA's James Webb Space Telescope will be launched on an Ariane 5 rocket. The launch vehicle is part of the European contribution to the mission. The Ariane 5 is one of the world's most reliable launch vehicles capable of delivering Webb to its destination in space. The European Space Agency (ESA) has agreed to provide an Ariane 5 launcher and associated launch services to NASA for Webb. The James Webb Space Telescope is the scientific successor to NASA's Hubble Space Telescope. It will be the most powerful space telescope ever built. Webb is an international project led by NASA with its partners, ESA (European Space Agency) and the Canadian Space Agency.
Dual-Passenger Capability
Industrial Prime Contractor: Airbus Safran Launchers
Payload to geostationary transfer orbit (GTO): 10 t
Payload to low-Earth orbit (LEO): 20 t
Ariane 5 ECA Technical Overview
Height: 50.5 m
Diameter: 5.4 m
Mass: 780 t
Ariane 5 PDF Brochure (English)
http://www.arianespace.com/wp-content/uploads/2015/10/Ariane5_Brochure_Nov2016.pdf
Ariane 5 PDF User’s Manual (English)
http://www.arianespace.com/wp-content/uploads/2011/07/Ariane5_Users-Manual_October2016.pdf
About Arianespace
"Arianespace uses space to make life better on Earth by providing launch services for all types of satellites into all orbits. It has orbited more than 570 satellites since 1980, using its family of three launchers, Ariane, Soyuz and Vega, from launch sites in French Guiana (South America) and Baikonur, Kazakhstan. Arianespace is headquartered in Evry, near Paris, and has a technical facility at the Guiana Space Center, Europe’s Spaceport in French Guiana, plus local offices in Washington, D.C., Tokyo and Singapore. Arianespace is a subsidiary of ArianeGroup, which holds 74% of its share capital, with the balance held by 17 other shareholders from the European launcher industry."
Galileo Satellite Mission: Ariane 5 Rocket Liftoff | ESA
Galileo: The world's first civilian Earth satellite navigation system
Europe’s next four Galileo navigation satellites lifted off on July 25, 2018 from Europe’s Spaceport in French Guiana atop an Ariane 5 launcher.
Galileo is the global navigation satellite system (GNSS) that is being created by the European Union (EU) through the European Space Agency (ESA), headquartered in Prague in the Czech Republic, with two ground operations centers, Oberpfaffenhofen near Munich in Germany and Fucino in Italy. The €10 billion project is named after the Italian astronomer Galileo Galilei. One of the aims of Galileo is to provide an independent high-precision positioning system so European nations do not have to rely on the Russian GLONASS, Chinese BeiDou or U.S. GPS systems, which could be disabled or degraded by their operators at any time.The use of basic (lower-precision) Galileo services will be free and open to everyone. The higher-precision capabilities will be available for paying commercial users. Galileo is intended to provide horizontal and vertical position measurements within 1-meter precision, and better positioning services at higher latitudes than other positioning systems.
Galileo is to provide a new global search and rescue (SAR) function as part of the MEOSAR system. Satellites will be equipped with a transponder which will relay distress signals from emergency beacons to the Rescue coordination center, which will then initiate a rescue operation.
French Guiana, officially called Guiana, is an overseas department and region of France, on the north Atlantic coast of South America in the Guyanas. It borders Brazil to the east and south and Suriname to the west. Since 1981, when Belize became independent, French Guiana has been the only territory of the mainland Americas that is still part of a European country.
(Source: Wikipedia)
Credit & Copyright: ESA/CNES/Arianespace/Optique Video du CSG
Release Date: July 25, 2018
#ESA #Earth #Space #Satellite #Rocket #Ariane5 #Launch #Arianespace #Civilian #Navigation #GNSS #Europe #Search #Rescue #SAR #MEOSAR #Spaceport #Kourou #FrenchGuiana #SouthAmerica #STEM #Education
Europe's Galileo Mission | Ariane 5 Rocket Liftoff Poster
Galileo: The world's first civilian Earth satellite navigation system
Galileo is the global navigation satellite system (GNSS) that is being created by the European Union (EU) through the European Space Agency (ESA), headquartered in Prague in the Czech Republic, with two ground operations centers, Oberpfaffenhofen near Munich in Germany and Fucino in Italy. The €10 billion project is named after the Italian astronomer Galileo Galilei. One of the aims of Galileo is to provide an independent high-precision positioning system so European nations do not have to rely on the Russian GLONASS, Chinese BeiDou or U.S. GPS systems, which could be disabled or degraded by their operators at any time.The use of basic (lower-precision) Galileo services will be free and open to everyone. The higher-precision capabilities will be available for paying commercial users. Galileo is intended to provide horizontal and vertical position measurements within 1-meter precision, and better positioning services at higher latitudes than other positioning systems.
Galileo is to provide a new global search and rescue (SAR) function as part of the MEOSAR system. Satellites will be equipped with a transponder which will relay distress signals from emergency beacons to the Rescue coordination center, which will then initiate a rescue operation.
French Guiana, officially called Guiana, is an overseas department and region of France, on the north Atlantic coast of South America in the Guyanas. It borders Brazil to the east and south and Suriname to the west. Since 1981, when Belize became independent, French Guiana has been the only territory of the mainland Americas that is still part of a European country.
(Source: Wikipedia)
About Arianespace
"Arianespace uses space to make life better on Earth by providing launch services for all types of satellites into all orbits. It has orbited more than 570 satellites since 1980, using its family of three launchers, Ariane, Soyuz and Vega, from launch sites in French Guiana (South America) and Baikonur, Kazakhstan. Arianespace is headquartered in Evry, near Paris, and has a technical facility at the Guiana Space Center, Europe’s Spaceport in French Guiana, plus local offices in Washington, D.C., Tokyo and Singapore. Arianespace is a subsidiary of ArianeGroup, which holds 74% of its share capital, with the balance held by 17 other shareholders from the European launcher industry."
Credit & Copyright: Arianespace
Release Date: July 25, 2018
#Arianespace #ESA #Earth #Space #Satellite #Rocket #Ariane5 #Launch #Civilian #Navigation #GNSS #Europe #Search #Rescue #SAR #MEOSAR #Spaceport #Kourou #FrenchGuiana #SouthAmerica #Liftoff #Poster #FlightVA244 #STEM #Education
NASA's Parker Solar Probe: ULA Delta IV Heavy Rocket Mission
Parker Solar Probe Launch Targeted for Aug. 11
Go Delta! Go Parker Solar Probe!
With three common booster cores, the Heavy is the largest in the Delta IV fleet and is a proven U.S. heavy lifter, delivering high-priority missions for the U.S. Air Force, National Reconnaissance Office (NRO) and NASA. The Delta IV Heavy also launched NASA’s Orion spacecraft on its historic Exploration Flight Test (EFT-1) in 2014.
July 24, 2018: NASA and its mission partners are targeting Aug. 11 for the launch of the Parker Solar Probe mission to the Sun. The 45-minute launch window will open at 3:48 a.m. EDT. During final inspections following the encapsulation of the spacecraft, a small strip of foam was found inside the fairing and additional time is needed for inspection.
The spacecraft will launch on a United Launch Alliance Delta IV Heavy rocket from Space Launch Complex 37 on Cape Canaveral Air Force Station in Florida.
The spacecraft aims to unravel 60 years' worth of mysteries surrounding the Sun’s corona. NASA's Parker Solar Probe and its United Launch Alliance Delta IV Heavy launch vehicle prepare for an unprecedented mission to "kiss the Sun."
Launching from Cape Canaveral Air Force Station in Florida, Parker Solar Probe will swoop to within 4 million miles of the sun's surface, facing heat and radiation like no spacecraft before it. It will provide new data on solar activity and make critical contributions to our ability to forecast major space-weather events that impact life on Earth.
Learn about the historic Parker Solar Probe mission: https://go.nasa.gov/2ubAwFS
• Rocket: Delta IV Heavy
• Mission: Parker Solar Probe
• Launch Date: Saturday, Aug. 11, 2018
• Launch Broadcast: Details to come
• Launch Location: Space Launch Complex-37, Cape Canaveral Air Force Station, Florida
Mission Information:
Parker Solar Probe is humanity’s first mission to the sun. After launch, it will orbit directly through the solar atmosphere–the corona–closer to the surface than any human-made object has ever gone. While facing brutal heat and radiation, the mission will reveal fundamental science behind what drives the solar wind, the constant outpouring of material from the sun that shapes planetary atmospheres and affects space weather near Earth.
Parker Solar Probe is part of NASA’s Living With a Star Program to explore aspects of the connected sun-Earth system that directly affect life and society.
Launch Notes: Due to the extremely high energy required for this mission, the Delta IV Heavy’s capability will be augmented by a powerful third stage provided by Northrop Grumman Innovation Systems.
Credit: United Launch Alliance (ULA)/NASA
Release Date: July 24, 2018
#NASA #Astronomy #Science #Space #SpaceWeather #Sun #Solar #Corona #Star #Astrophysics #Spacecraft #Probe #SolarProbe #Parker #ULA #DeltaIV #EugeneParker #Astrophysicist #Chicago #University #JHUAPL #Goddard #CapeCanaveral #AirForce #Kennedy #KSC #Spaceport #Florida #UnitedStates #Mission #Poster #Illustration #Art #STEM #Education
Go Delta! Go Parker Solar Probe!
With three common booster cores, the Heavy is the largest in the Delta IV fleet and is a proven U.S. heavy lifter, delivering high-priority missions for the U.S. Air Force, National Reconnaissance Office (NRO) and NASA. The Delta IV Heavy also launched NASA’s Orion spacecraft on its historic Exploration Flight Test (EFT-1) in 2014.
July 24, 2018: NASA and its mission partners are targeting Aug. 11 for the launch of the Parker Solar Probe mission to the Sun. The 45-minute launch window will open at 3:48 a.m. EDT. During final inspections following the encapsulation of the spacecraft, a small strip of foam was found inside the fairing and additional time is needed for inspection.
The spacecraft will launch on a United Launch Alliance Delta IV Heavy rocket from Space Launch Complex 37 on Cape Canaveral Air Force Station in Florida.
The spacecraft aims to unravel 60 years' worth of mysteries surrounding the Sun’s corona. NASA's Parker Solar Probe and its United Launch Alliance Delta IV Heavy launch vehicle prepare for an unprecedented mission to "kiss the Sun."
Launching from Cape Canaveral Air Force Station in Florida, Parker Solar Probe will swoop to within 4 million miles of the sun's surface, facing heat and radiation like no spacecraft before it. It will provide new data on solar activity and make critical contributions to our ability to forecast major space-weather events that impact life on Earth.
Learn about the historic Parker Solar Probe mission: https://go.nasa.gov/2ubAwFS
• Rocket: Delta IV Heavy
• Mission: Parker Solar Probe
• Launch Date: Saturday, Aug. 11, 2018
• Launch Broadcast: Details to come
• Launch Location: Space Launch Complex-37, Cape Canaveral Air Force Station, Florida
Mission Information:
Parker Solar Probe is humanity’s first mission to the sun. After launch, it will orbit directly through the solar atmosphere–the corona–closer to the surface than any human-made object has ever gone. While facing brutal heat and radiation, the mission will reveal fundamental science behind what drives the solar wind, the constant outpouring of material from the sun that shapes planetary atmospheres and affects space weather near Earth.
Parker Solar Probe is part of NASA’s Living With a Star Program to explore aspects of the connected sun-Earth system that directly affect life and society.
Launch Notes: Due to the extremely high energy required for this mission, the Delta IV Heavy’s capability will be augmented by a powerful third stage provided by Northrop Grumman Innovation Systems.
Credit: United Launch Alliance (ULA)/NASA
Release Date: July 24, 2018
#NASA #Astronomy #Science #Space #SpaceWeather #Sun #Solar #Corona #Star #Astrophysics #Spacecraft #Probe #SolarProbe #Parker #ULA #DeltaIV #EugeneParker #Astrophysicist #Chicago #University #JHUAPL #Goddard #CapeCanaveral #AirForce #Kennedy #KSC #Spaceport #Florida #UnitedStates #Mission #Poster #Illustration #Art #STEM #Education
Tuesday, July 24, 2018
Volcano in Chad, Africa | International Space Station
U.S. Astronaut Ricky Arnold: "Towering over a seemingly alien landscape & dormant for over a million years, Emi Koussi in Chad is now a silent sentinel of the Sahara."
Emi Koussi is a high pyroclastic shield volcano that lies at the southeast end of the Tibesti Mountains in the central Sahara of the northern Borkou Region of northern Chad. It is the highest mountain of the Sahara. The volcano is one of several in the Tibesti Mountains, and reaches 3,445 meters (11,302 ft) in elevation, rising 3 km (1.9 mi) above the surrounding sandstone plains. The volcano is 60–70 kilometers (37–43 mi) wide.
(Source: Wikipedia)
Credit: NASA Astronaut Ricky Arnold/JSC
Release Date: July 24, 2018
#NASA #Space #ISS #Science #Earth #EmiKoussi #Volcano #Sahara #Chad #Africa #Astronaut #RickyArnold #UnitedStates #Expedition56 #Human #Spaceflight #Spacecraft #Photography #STEM #Education #OrbitalPerspective #OverviewEffect
Emi Koussi is a high pyroclastic shield volcano that lies at the southeast end of the Tibesti Mountains in the central Sahara of the northern Borkou Region of northern Chad. It is the highest mountain of the Sahara. The volcano is one of several in the Tibesti Mountains, and reaches 3,445 meters (11,302 ft) in elevation, rising 3 km (1.9 mi) above the surrounding sandstone plains. The volcano is 60–70 kilometers (37–43 mi) wide.
(Source: Wikipedia)
Credit: NASA Astronaut Ricky Arnold/JSC
Release Date: July 24, 2018
#NASA #Space #ISS #Science #Earth #EmiKoussi #Volcano #Sahara #Chad #Africa #Astronaut #RickyArnold #UnitedStates #Expedition56 #Human #Spaceflight #Spacecraft #Photography #STEM #Education #OrbitalPerspective #OverviewEffect
Summer Blooms in the Baltic Sea | NASA
Image: Wide view of phytoplankton and blue-green algae blooms off of Scandinavia. They seem to be particularly intense this summer.
Every summer, phytoplankton spread across the northern basins of the North Atlantic and Arctic Oceans, with blooms spanning hundreds and sometimes thousands of kilometers. Nutrient-rich, cooler waters tend to promote more growth among marine plants and phytoplankton than is found in tropical waters. Blooms this summer off of Scandinavia seem to be particularly intense.On July 18, 2018, the Operational Land Imager (OLI) on Landsat 8 acquired a natural-color image (above) of a swirling green phytoplankton bloom in the Gulf of Finland, a section of the Baltic Sea. Note how the phytoplankton trace the edges of a vortex; it is possible that this ocean eddy is pumping up nutrients from the depths.
Though it is impossible to know the genus and species without sampling the water, three decades of satellite observations suggest that these green blooms are likely to be cyanobacteria (blue-green algae), an ancient type of marine bacteria that capture and store solar energy through photosynthesis (like plants). Some of the greens also could come from diatoms, which are also rich in chlorophyll. According to news outlets, the Finnish Environment Institute (SYKE) has observed the recent bloom from the water and found it to be mostly cyanobacteria.
In recent years, the proliferation of algae blooms in the Baltic Sea has led to the regular appearance of “dead zones” in the basin. Phytoplankton and cyanobacteria consume the abundant nutrients in the Baltic—fueled largely by runoff from sewage and agriculture—and reproduce in such vast numbers that their growth and decay deplete the oxygen content of the water. According to researchers from Finland’s University of Turku, the dead zone this year is estimated to span about 70,000 square kilometers.
A research team from Finland and Germany reported this month that oxygen levels in recent years in the Baltic Sea are at their lowest levels in the past 1500 years. More frequent and massive blooms, combined with warming seas due to climate change, are making it harder for fish and other marine life to thrive in this basin.
The Gulf of Finland is the easternmost arm of the Baltic Sea. It extends between Finland (to the north) and Estonia (to the south) all the way to Saint Petersburg in Russia, where the river Neva drains into it.
(Source: Wikipedia)
Image Credit: NASA Earth Observatory images by Joshua Stevens and Lauren Dauphin, using Landsat data from the U.S. Geological Survey
Story Credit: Mike Carlowicz
Instrument: Landsat 8 — OLI
Image Date: July 18, 2018
Release Date: July 23, 2018
#NASA #Earth #Space #Satellite #Science #Scandinavia #Phytoplankton #Algae #Cyanobacteria #Blooms #Gulf #Finland #Suomi #Suomenlahti #Фи́нский #зали́в #Baltic #Sea #Landsat8 #OLI #Landsat #EarthObservation #RemoteSensing #Environment #Infographic #STEM #Education
Monday, July 23, 2018
Jupiter's Moon Europa: Key to Future Missions | NASA/JPL
Image: Artist's concept of radiation from Jupiter
Radiation from Jupiter can destroy molecules on Europa's surface. Material from Europa's ocean that ends up on the surface will be bombarded by radiation, possibly destroying any biosignatures, or chemical signs that could imply the presence of life.
July 23, 2018: New comprehensive mapping of the radiation pummeling Jupiter's icy moon Europa reveals where scientists should look—and how deep they'll have to go—when searching for signs of habitability and biosignatures.
Since NASA's Galileo mission yielded strong evidence of a global ocean underneath Europa's icy shell in the 1990s, scientists have considered that moon one of the most promising places in our solar system to look for ingredients to support life. There's even evidence that the salty water sloshing around the moon's interior makes its way to the surface.
By studying this material from the interior, scientists developing future missions hope to learn more about the possible habitability of Europa's ocean.However, Europa's surface is bombarded by a constant and intense blast of radiation from Jupiter. This radiation can destroy or alter material transported up to the surface, making it more difficult for scientists to know if it actually represents conditions in Europa's ocean.
As scientists plan for upcoming exploration of Europa, they have grappled with many unknowns: Where is the radiation most intense? How deep do the energetic particles go? How does radiation affect what's on the surface and beneath - including potential chemical signs, or biosignatures, that could imply the presence of life.
A new scientific study, published today in Nature Astronomy, represents the most complete modeling and mapping of radiation at Europa and offers key pieces to the puzzle. The lead author is Tom Nordheim, research scientist at NASA's Jet Propulsion Laboratory, Pasadena, California.
"If we want to understand what's going on at the surface of Europa and how that links to the ocean underneath, we need to understand the radiation," Nordheim said. "When we examine materials that have come up from the subsurface, what are we looking at? Does this tell us what is in the ocean, or is this what happened to the materials after they have been radiated?"
Using data from Galileo's flybys of Europa two decades ago and electron measurements from NASA's Voyager 1 spacecraft, Nordheim and his team looked closely at the electrons blasting the moon's surface. They found that the radiation doses vary by location. The harshest radiation is concentrated in zones around the equator, and the radiation lessens closer to the poles.
Mapped out, the harsh radiation zones appear as oval-shaped regions, connected at the narrow ends, that cover more than half of the moon.
"This is the first prediction of radiation levels at each point on Europa's surface and is important information for future Europa missions," said Chris Paranicas, a co-author from the Johns Hopkins Applied Physics Laboratory in Laurel, Maryland.
Now scientists know where to find regions least altered by radiation, which could be crucial information for the JPL-led Europa Clipper, NASA's mission to orbit Jupiter and monitor Europa with about 45 close flybys. The spacecraft may launch as early as 2022 and will carry cameras, spectrometers, plasma and radar instruments to investigate the composition of the moon's surface, its ocean, and material that has been ejected from the surface.
In his new paper, Nordheim didn't stop with a two-dimensional map. He went deeper, gauging how far below the surface the radiation penetrates, and building 3D models of the most intense radiation on Europa. The results tell us how deep scientists need to dig or drill, during a potential future Europa lander mission, to find any biosignatures that might be preserved.
The answer varies, from 4 to 8 inches (10 to 20 centimeters) in the highest-radiation zones—down to less than 0.4 inches (1 centimeter) deep in regions of Europa at middle—and high-latitudes, toward the moon's poles.
To reach that conclusion, Nordheim tested the effect of radiation on amino acids, basic building blocks for proteins, to figure out how Europa's radiation would affect potential biosignatures. Amino acids are among the simplest molecules that qualify as a potential biosignature, the paper notes.
"The radiation that bombards Europa's surface leaves a fingerprint," said Kevin Hand, co-author of the new research and projectscientist for the potential Europa Lander mission. "If we know what that fingerprint looks like, we can better understand the nature of any organics and possible biosignatures that might be detected with future missions, be they spacecraft that fly by or land on Europa.
Europa Clipper's mission team is examining possible orbit paths, and proposed routes pass over many regions of Europa that experience lower levels of radiation, Hand said. "That's good news for looking at potentially fresh ocean material that has not been heavily modified by the fingerprint of radiation."
JPL, a division of Caltech in Pasadena, California, manages the Europa Clipper mission for NASA's Science Mission Directorate in Washington.
For more information about NASA's Europa Clipper mission, visit:
https://www.nasa.gov/europa
Credit: NASA/JPL-Caltech
Release Date: July 23, 2018
#NASA #Astronomy #Space #Science #Jupiter #Europa #Moon #Ocean #Astrobiology #Biosignatures #Habitability #Radiation #Map #Galileo #EuropaClipper #Spacecraft #SolarSystem #Exploration #JPL #Pasadena #California #UnitedStates #Art #Illustration #Infographic #STEM #Education
Radiation from Jupiter can destroy molecules on Europa's surface. Material from Europa's ocean that ends up on the surface will be bombarded by radiation, possibly destroying any biosignatures, or chemical signs that could imply the presence of life.
July 23, 2018: New comprehensive mapping of the radiation pummeling Jupiter's icy moon Europa reveals where scientists should look—and how deep they'll have to go—when searching for signs of habitability and biosignatures.
Since NASA's Galileo mission yielded strong evidence of a global ocean underneath Europa's icy shell in the 1990s, scientists have considered that moon one of the most promising places in our solar system to look for ingredients to support life. There's even evidence that the salty water sloshing around the moon's interior makes its way to the surface.
By studying this material from the interior, scientists developing future missions hope to learn more about the possible habitability of Europa's ocean.However, Europa's surface is bombarded by a constant and intense blast of radiation from Jupiter. This radiation can destroy or alter material transported up to the surface, making it more difficult for scientists to know if it actually represents conditions in Europa's ocean.
As scientists plan for upcoming exploration of Europa, they have grappled with many unknowns: Where is the radiation most intense? How deep do the energetic particles go? How does radiation affect what's on the surface and beneath - including potential chemical signs, or biosignatures, that could imply the presence of life.
A new scientific study, published today in Nature Astronomy, represents the most complete modeling and mapping of radiation at Europa and offers key pieces to the puzzle. The lead author is Tom Nordheim, research scientist at NASA's Jet Propulsion Laboratory, Pasadena, California.
"If we want to understand what's going on at the surface of Europa and how that links to the ocean underneath, we need to understand the radiation," Nordheim said. "When we examine materials that have come up from the subsurface, what are we looking at? Does this tell us what is in the ocean, or is this what happened to the materials after they have been radiated?"
Using data from Galileo's flybys of Europa two decades ago and electron measurements from NASA's Voyager 1 spacecraft, Nordheim and his team looked closely at the electrons blasting the moon's surface. They found that the radiation doses vary by location. The harshest radiation is concentrated in zones around the equator, and the radiation lessens closer to the poles.
Mapped out, the harsh radiation zones appear as oval-shaped regions, connected at the narrow ends, that cover more than half of the moon.
"This is the first prediction of radiation levels at each point on Europa's surface and is important information for future Europa missions," said Chris Paranicas, a co-author from the Johns Hopkins Applied Physics Laboratory in Laurel, Maryland.
Now scientists know where to find regions least altered by radiation, which could be crucial information for the JPL-led Europa Clipper, NASA's mission to orbit Jupiter and monitor Europa with about 45 close flybys. The spacecraft may launch as early as 2022 and will carry cameras, spectrometers, plasma and radar instruments to investigate the composition of the moon's surface, its ocean, and material that has been ejected from the surface.
In his new paper, Nordheim didn't stop with a two-dimensional map. He went deeper, gauging how far below the surface the radiation penetrates, and building 3D models of the most intense radiation on Europa. The results tell us how deep scientists need to dig or drill, during a potential future Europa lander mission, to find any biosignatures that might be preserved.
The answer varies, from 4 to 8 inches (10 to 20 centimeters) in the highest-radiation zones—down to less than 0.4 inches (1 centimeter) deep in regions of Europa at middle—and high-latitudes, toward the moon's poles.
To reach that conclusion, Nordheim tested the effect of radiation on amino acids, basic building blocks for proteins, to figure out how Europa's radiation would affect potential biosignatures. Amino acids are among the simplest molecules that qualify as a potential biosignature, the paper notes.
"The radiation that bombards Europa's surface leaves a fingerprint," said Kevin Hand, co-author of the new research and projectscientist for the potential Europa Lander mission. "If we know what that fingerprint looks like, we can better understand the nature of any organics and possible biosignatures that might be detected with future missions, be they spacecraft that fly by or land on Europa.
Europa Clipper's mission team is examining possible orbit paths, and proposed routes pass over many regions of Europa that experience lower levels of radiation, Hand said. "That's good news for looking at potentially fresh ocean material that has not been heavily modified by the fingerprint of radiation."
JPL, a division of Caltech in Pasadena, California, manages the Europa Clipper mission for NASA's Science Mission Directorate in Washington.
For more information about NASA's Europa Clipper mission, visit:
https://www.nasa.gov/europa
Credit: NASA/JPL-Caltech
Release Date: July 23, 2018
#NASA #Astronomy #Space #Science #Jupiter #Europa #Moon #Ocean #Astrobiology #Biosignatures #Habitability #Radiation #Map #Galileo #EuropaClipper #Spacecraft #SolarSystem #Exploration #JPL #Pasadena #California #UnitedStates #Art #Illustration #Infographic #STEM #Education
The Heart of the Milky Way | ESO
This image shows a number of antennas from the Atacama Large Millimeter/submillimeter Array (ALMA), a state-of-the-art telescope array positioned high in the Chilean Andes. A full Moon can be seen above the red-tinted horizon, glowing brightly above the observatory.
ALMA sits on the Chajnantor Plateau, some 5000 meters above sea level. At this altitude, crystal-clear views of the cosmos can be seen on an almost nightly basis, as shown by the striking cosmic caterpillar gliding over the top of the ALMA antennas in this image. This bright streak is the Milky Way; the galaxy’s bulge of gas and intricate dust lanes is clearly illuminated against the star-studded night sky, with pink-hued patches marking areas of hot, ionised gas produced by newly formed stars. The brightest part of the Milky Way— the very heart of our galaxy—is situated approximately 25,000 light-years away from Earth.
Credit: Yuri Beletsky (LCO)/ESO
Release Date: July 23, 2018
#ESO #Astronomy #Space #Science #Stars #MilkyWay #Moon #ALMA #Telescope #Observatory #Chajnantor #Plateau #Chile #Andes #SouthAmerica #STEM #Education
ALMA sits on the Chajnantor Plateau, some 5000 meters above sea level. At this altitude, crystal-clear views of the cosmos can be seen on an almost nightly basis, as shown by the striking cosmic caterpillar gliding over the top of the ALMA antennas in this image. This bright streak is the Milky Way; the galaxy’s bulge of gas and intricate dust lanes is clearly illuminated against the star-studded night sky, with pink-hued patches marking areas of hot, ionised gas produced by newly formed stars. The brightest part of the Milky Way— the very heart of our galaxy—is situated approximately 25,000 light-years away from Earth.
Credit: Yuri Beletsky (LCO)/ESO
Release Date: July 23, 2018
#ESO #Astronomy #Space #Science #Stars #MilkyWay #Moon #ALMA #Telescope #Observatory #Chajnantor #Plateau #Chile #Andes #SouthAmerica #STEM #Education
The Milky Way’s Big Sister | Hubble
This image taken by the NASA/ESA Hubble Space Telescope’s Wide Field Camera 3 (WFC3) shows a beautiful spiral galaxy called NGC 6744. At first glance, it resembles our Milky Way albeit larger, measuring more than 200,000 light-years across compared to 100,000 light-year diameter for our home galaxy.
NGC 6744 is similar to our home galaxy in more ways than one. Like the Milky Way, NGC 6744 has a prominent central region packed with old yellow stars. Moving away from the galactic core, one can see parts of the dusty spiral arms painted in shades of pink and blue; while the blue sites are full of young star clusters, the pink ones are regions of active star formation, indicating that the galaxy is still very lively.
In 2005, a supernova, named 2005at, was discovered within NGC 6744, adding to the argument of this galaxy’s liveliness (not visible in this image). SN 2005at is a type Ic supernova, formed when a massive star collapses in itself and loses its hydrogen envelope.
Credit: ESA/Hubble & NASA
Acknowledgement: Judy Schmidt
Release Date: July 23, 2018
#NASA #Astronomy #Space #Science #Galaxy #NGC6744 #Spiral #Pavo #SN2005at #Supernova #Cosmos #Universe #Telescope #ESA #Goddard #GSFC #STScI #STEM #Education
Sunday, July 22, 2018
Jupiter: High-Altitude Clouds | NASA Juno
This image captures a high-altitude cloud formation surrounded by swirling patterns in the atmosphere of Jupiter's North North Temperate Belt region.
The North North Temperate Belt is one of Jupiter’s many colorful, swirling cloud bands. Scientists have wondered for decades how deep these bands extend. Gravity measurements collected by Juno during its close flybys of the planet have now provided an answer. Juno discovered that these bands of flowing atmosphere actually penetrate deep into the planet, to a depth of about 1,900 miles (3,000 kilometers).
NASA’s Juno spacecraft took this color-enhanced image at 10:11 p.m. PDT on July 15, 2018 (1:11 a.m. EDT on July 16), as the spacecraft performed its 14th close flyby of Jupiter. At the time, Juno was about 3,900 miles (6,200 kilometers) from the planet's cloud tops, above a latitude of 36 degrees.
Citizen scientist Jason Major created this image using data from the spacecraft’s JunoCam imager.
More information about Juno is at:
https://www.nasa.gov/juno
http://missionjuno.swri.edu
Image Credit: NASA/JPL-Caltech/SwRI/MSSS/Jason Major
Image Date: July 15, 2018
Release Date: July 19, 2018
#NASA #Astronomy #Science #Space #Jupiter #Planet #Atmosphere #Clouds #HighAltitude #NorthTemperateBelt #Weather #Meteorology #Juno #Spacecraft #JunoCam #Malin #SwRI #JPL #Caltech #STEM #Education #CitizenScience
The North North Temperate Belt is one of Jupiter’s many colorful, swirling cloud bands. Scientists have wondered for decades how deep these bands extend. Gravity measurements collected by Juno during its close flybys of the planet have now provided an answer. Juno discovered that these bands of flowing atmosphere actually penetrate deep into the planet, to a depth of about 1,900 miles (3,000 kilometers).
NASA’s Juno spacecraft took this color-enhanced image at 10:11 p.m. PDT on July 15, 2018 (1:11 a.m. EDT on July 16), as the spacecraft performed its 14th close flyby of Jupiter. At the time, Juno was about 3,900 miles (6,200 kilometers) from the planet's cloud tops, above a latitude of 36 degrees.
Citizen scientist Jason Major created this image using data from the spacecraft’s JunoCam imager.
More information about Juno is at:
https://www.nasa.gov/juno
http://missionjuno.swri.edu
Image Credit: NASA/JPL-Caltech/SwRI/MSSS/Jason Major
Image Date: July 15, 2018
Release Date: July 19, 2018
#NASA #Astronomy #Science #Space #Jupiter #Planet #Atmosphere #Clouds #HighAltitude #NorthTemperateBelt #Weather #Meteorology #Juno #Spacecraft #JunoCam #Malin #SwRI #JPL #Caltech #STEM #Education #CitizenScience
France | International Space Station
Cosmonaut Oleg Artemyev: "The birthplace of aeronautics, cinematography, Cezanne, Exupéry, Dumas. . ."
"If you did not recognize this country from a photo from space, then by my clues you probably already guessed that it is France—the largest country in western Europe. It stretches from the Mediterranean Sea to the English Channel."
"Nobody can see where the FIFA 2018 goblet glistens, which the French have recently taken away from Moscow? ⚽🏆"
Credit: Cosmonaut Oleg Artemyev/Roscosmos
Release Date: July 22, 2018
#NASA #Space #ISS #Science #Earth #France #Culture #History #CNES #Football #Soccer #FIFA2018 #FM2018 #WorldCup #Europe #Expedition56 #Cosmonaut #OlegArtemyev #Roscosmos #Роскосмос #Russia #Россия #Photography #STEM #Education #International #OrbitalPerspective #OverviewEffect
"If you did not recognize this country from a photo from space, then by my clues you probably already guessed that it is France—the largest country in western Europe. It stretches from the Mediterranean Sea to the English Channel."
"Nobody can see where the FIFA 2018 goblet glistens, which the French have recently taken away from Moscow? ⚽🏆"
Credit: Cosmonaut Oleg Artemyev/Roscosmos
Release Date: July 22, 2018
#NASA #Space #ISS #Science #Earth #France #Culture #History #CNES #Football #Soccer #FIFA2018 #FM2018 #WorldCup #Europe #Expedition56 #Cosmonaut #OlegArtemyev #Roscosmos #Роскосмос #Russia #Россия #Photography #STEM #Education #International #OrbitalPerspective #OverviewEffect
Friday, July 20, 2018
Successful Orion Parachute Test | This Week @NASA
July 20, 2018: Another successful parachute test for Orion, how we’re getting back to the Moon, and an Apollo 11 virtual experience . . . a few of the stories to tell you about—This Week at NASA!
Credit: NASA
Duration: 3 minutes, 16 seconds
Release Date: July 20, 2018
#NASA #Space #Astronomy #Orion #Spacecraft #Parachute #Test #SLS #Rocket #Moon #Lunar #Exploration #NASA60th #Apollo11Landing #Apollo11 #Apollo11VR #VR #VirtualReality #SOFIA #Observatory #NeilArmstrong #BuzzAldrin #Astronauts #History #Human #Spaceflight #STEM #Education #HD #Video
National Moon Day | International Space Station
U.S. Astronaut Ricky Arnold: "Across thousands of years and miles of empty space, the moon’s gentle tether to the human heart endures."
"It's National Moon Day! History was made 49 years ago today when the first humans set foot on the Moon during Apollo 11. Watched live on television by a worldwide audience, Neil Armstrong and Buzz Aldrin went where no one had gone before."
— NASA History Office
Credit: NASA Astronaut Ricky Arnold/JSC
Release Date: July 20, 2018
#NASA #Space #ISS #Science #Earth #Moon #Apollo11 #NationalMoonDay #NASA60th #Apollo11Landing #NeilArmstrong #BuzzAldrin #Astronauts #RickyArnold #UnitedStates #Expedition56 #Human #Spaceflight #Spacecraft #Photography #STEM #Education #OrbitalPerspective #OverviewEffect
"It's National Moon Day! History was made 49 years ago today when the first humans set foot on the Moon during Apollo 11. Watched live on television by a worldwide audience, Neil Armstrong and Buzz Aldrin went where no one had gone before."
— NASA History Office
Credit: NASA Astronaut Ricky Arnold/JSC
Release Date: July 20, 2018
#NASA #Space #ISS #Science #Earth #Moon #Apollo11 #NationalMoonDay #NASA60th #Apollo11Landing #NeilArmstrong #BuzzAldrin #Astronauts #RickyArnold #UnitedStates #Expedition56 #Human #Spaceflight #Spacecraft #Photography #STEM #Education #OrbitalPerspective #OverviewEffect
NASA's Space to Ground: Concrete Science | Week of July 20, 2018
Credit: NASA's Johnson Space Center (JSC)
Duration: 2 minutes, 15 seconds
Release Date: July 20, 2018
#NASA #Space #Astronomy #Science #Cygnus #Cargo #NorthropGrumman #Concrete #Research #Astronauts #DrewFeustel #RickyArnold #ESA #DLR #AlexanderGerst #Europe #Germany #Deutschland #SerenaAuñónChancellor #UnitedStates #Expedition56 #Human #Spaceflight #Spacecraft #JSC #Houston #Texas #STEM #Education #HD #Video
Thursday, July 19, 2018
Blue Origin New Shepard Mission 9 Launch Webcast
New Shepard flew for the ninth time on July 18, 2018. During this mission, known as Mission 9 (M9), the escape motor was fired shortly after booster separation. The Crew Capsule was pushed hard by the escape test and we stressed the rocket to test that astronauts can get away from an anomaly at any time during flight. The mission was a success for both the booster and capsule. Most importantly, astronauts would have had an exhilarating ride and safe landing.
This is not the first time we have done this type of extreme testing on New Shepard. In October of 2012, we simulated a booster failure on the launch pad and had a successful escape. Then in October 2016, we simulated a booster failure in-flight at Max Q, which is the most physically strenuous point in the flight for the rocket, and had a completely successful escape of the capsule.
This test on M9 allowed us to finally characterize escape motor performance in the near-vacuum of space and guarantee that we can safely return our astronauts in any phase of flight.
Also on M9, New Shepard carried science and research payloads from commercial companies, universities and space agencies.
Learn more about the payloads on board here:
https://www.blueorigin.com/news/news/payload-manifest-on-mission-9
Credit: Blue Origin
Duration: 50 minutes
Release Date: July 18, 2018
#NASA #Earth #Space #BlueOrigin #Rocket #NewShepard #Vehicle #Crew #Capsule #Mission9 #M9 #Launch #JeffBezos #Technology #Propulsion #Engines #Technology #Engineering #Texas #UnitedStates #Human #Spaceflight #Spaceflight #STEM #Education #SpaceTourism #NewSpace #Commercial #HD #Video
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