Archive for the ‘Space News’ Category
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March 17th, 2022
Curiosity Mast Camera Left image acquired on Sol 3415, March 16, 2022.
Credit: NASA/JPL-Caltech/MSSS
NASA’s Curiosity Mars rover at Gale Crater is now performing Sol 3417 tasks.
Abigail Fraeman, a planetary geologist at NASA’s Jet Propulsion Laboratory, reports that a Monday drive by the robot was successful, and the rover is fully surrounded by the rocks that cap the Greenheugh pediment.
“From here we can see hundreds of ventifacts – a term that describes rocks which have been abraded by wind-blown sand into distinctive, flattened facets with crisp edges,” Fraeman explains. “This terrain is very different from what we’ve become used to seeing during our climb up Mt. Sharp!”
Curiosity Mast Camera Left image acquired on Sol 3415, March 16, 2022.
Credit: NASA/JPL-Caltech/MSSS
Less dusty ventifact
A recently scripted plan is all about exploring the local area.
That plans calls for collecting Alpha Particle X-Ray Spectrometer (APXS) and Mars Hand Lens Imager (MAHLI) observations of a relatively large, less dusty ventifact near the rover’s wheel at a target named “Knott.”
Elsewhere on that same rock, Fraeman adds, researchers will also collect a Chemistry and Camera Laser Induced Breakdown Spectroscopy (LIBS) observation of a target with neat sedimentary structures named “Old Nab,” as well as a ChemCam Remote Micro-Imager (RMI) observation of another area of the rock named “Little Mell.”
Curiosity Mast Camera Left image acquired on Sol 3415, March 16, 2022.
Credit: NASA/JPL-Caltech/MSSS
“We’ll also collect several Mastcam mosaics of targets near and far, as well as a standard set of observations to monitor our environment. The first day of the plan concludes with a drive to the southwest, towards a very small crater that might give us an interesting glimpse into the sedimentary structures in the area,” Fraeman reports.
Young geomorphic feature
Slightly closer, the rover can also see the distinctly layered nature of Gediz Vallis Ridge, which sits on top of the pediment and is one of the youngest geomorphic features on Mt. Sharp.
Curiosity Left B Navigation Camera image taken on Sol 3416, March 16, 2022.
Credit: NASA/JPL-Caltech
“At our perch on the top of the pediment, we have a spectacular view of the terrain below. We can see across the plains of Gale crater where we landed all the way to the crater’s rim tens of miles in the distance,” Fraeman adds.
“Slightly closer, we can also see the distinctly layered nature of Gediz Vallis Ridge, which sits on top of the pediment and is one of the youngest geomorphic features on Mt Sharp. Between the ventifacts and the viewshed, it’s quite an imposing place to rest before our next drive,” Fraeman concludes.
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The European Space Agency announced today that the upcoming launch of the ExoMars 2022 mission has been suspended.
ESA’s ruling Council, meeting in Paris on March 16-17 assessed the situation arising from the war in Ukraine regarding ExoMars, and unanimously acknowledged “the present impossibility” of carrying out the ongoing cooperation with Roscosmos on the ExoMars rover mission with a launch in 2022.
ExoMars 2022 mission was a joint ESA/Roscosmos project. Shown is rover ready to depart Russia-provided landing module and science landing platform.
Credit: Thales Alenia Space/Master Image Programmes
The Council has mandated that the ESA Director General (DG) take appropriate steps to suspend the cooperation activities accordingly, authorizing the DG “to carry out a fast-track industrial study to better define the available options for a way forward to implement the ExoMars rover mission.”
Launch of the ExoMars 2022 mission had been slated for September 20 (the opening of a 12-day launch window); lifting off from Baikonur, Kazakhstan atop a Proton booster.
That mission involved the ESA-led rover and a Roscosmos-led surface landing/science platform named “Kazachok.”
The Russian Kazachok platform was destined to land on the Red Planet as part of the ExoMars 2022 mission, shown here being shipped to Europe for final assembly and testing.
Credit: Roscosmos
Put on hold
Additionally, following the decision by Roscosmos to withdraw their personnel from Europe’s Spaceport in French Guiana, all missions scheduled for launch by Soyuz have been put on hold.
Credit: ESA
These concern essentially four institutional missions for which ESA is the launch service procurement entity (Galileo M10, Galileo M11, Euclid and EarthCare) and one additional institutional launch, the ESA statement explains.
ESA’s Euclid mission to aims to investigate dark matter, dark energy and the expanding Universe.
Credit: ESA
Consequently, the ESA DG has initiated an assessment on potential alternative launch services for these missions, which will include a review of the Ariane 6 first exploitation flights.
“A robust launch manifest for ESA missions’ launch needs, including for spacecraft originally planned for launch by Soyuz from Kourou, will be submitted to Member States,” the statement adds.
The Earth Cloud Aerosol and Radiation Explorer (EarthCARE) mission was slated for launch in 2023 from Kourou, French Guiana atop a Russian Soyuz booster. It is a joint venture between ESA and the Japan Aerospace Exploration Agency, JAXA.
Credit: ESA–P. Carril, 2013
European values
Regarding the International Space Station, it continues to operate nominally. “The main goal is to continue safe operations of the ISS, including maintaining the safety of the crew,” the ESA statement explains.
“As an intergovernmental organization mandated to develop and implement space programs in full respect with European values, we deeply deplore the human casualties and tragic consequences of the aggression towards Ukraine,” the statement notes. “While recognizing the impact on scientific exploration of space, ESA is fully aligned with the sanctions imposed on Russia by its Member States.”
Dr. Josef Aschbacher took up duty as ESA Director General on March 1, 2021 at ESA Headquarters in Paris, France.
Way forward
Lastly, the ESA statement considers the way forward. “Based on a first analysis of technical and programmatic impacts on all other activities affected by the war in Ukraine, the Director General intends to convene an extraordinary session of Council in the coming weeks to submit specific proposals for decision by Member States.”
ESA has 22 Member States: Austria, Belgium, the Czech Republic, Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Ireland, Italy, Luxembourg, the Netherlands, Norway, Poland, Portugal, Romania, Spain, Sweden, Switzerland and the United Kingdom. Slovenia, Latvia and Lithuania are Associate Members.
ESA has established formal cooperation with six Member States of the EU. Canada takes part in some ESA programs under a Cooperation Agreement.
Credit: NASA
After decades of robotic scouring of Mars, that remote world has transmitted a rock-solid message back to Earth. The communiqué from orbiters, stay-put landers and on-the-move rovers is this: The faraway globe is an active, dynamic and largely enigmatic place. Furthermore, a still elusive question that taunts scientists to this day is whether or not the Red Planet was, or is now, an extraterrestrial address for life?
A range of less-expensive landers, rovers and aerial vehicles are foreseen to help advance a sustainable human presence on Mars.
Credit: Keck Institute for Space Studies (KISS)/Chuck Carter (Used with permission)
An increasing number of Mars technologists are blueprinting inexpensive and novel concepts to further investigate the multifaceted planet. Be it via economical landers and orbiters to souped-up autonomous aerial devices, they say it’s time to script new ways to gather more data from a variety of places on that far-flung world.
More data from a variety of places
As for a next round of research, there’s plenty of exploration to do; Mars-circuiting micro-satellites capable of making direct and global measurements of wind velocity, probes that plumb the depths of the planet’s huge Valles Marineris canyon system, craft able to dive into caves or provide close-up inspection of the Martian polar caps.
NASA’s robotic Holy Grail mega-buck mission, a Mars sample return effort to bring back to Earth Martian collectibles.
Credit: NASA/JPL-Caltech
But to accomplish such objectives, there’s need for less costly and complex Mars exploration missions, contrasted to the billions of dollars, on-the-books effort to whisk back Red Planet collectibles to Earth. To that end, Mars technologists are blueprinting low-cost and novel ways to further survey the multifaceted planet. Be it via souped-up helicopters to inexpensive landers and orbiters, they say it’s time to script new ways to gather more data from a variety of places on that distant planet.
To preview what’s ahead, go to my new story for the AIAA’s Aerospace America – “NASA rethinks its Mars strategy” – at:
https://aerospaceamerica.aiaa.org/features/nasa-rethinks-its-mars-strategy/
Curiosity’s location on Sol 3413. Distance driven at this point, 17.01 miles/27.37 kilometers.
Credit: NASA/JPL-Caltech/Univ. of Arizona
NASA’s Curiosity Mars rover at Gale Crater is now performing Sol 3415 duties. The robot has now driven over 17 miles since landing in early August of 2012.
Over last weekend, the rover completed the planned drive with a relatively easy traverse in the pediment, reports Michelle Minitti, a planetary geologist at Framework in Silver Spring, Maryland.
Curiosity Left B Navigation Camera photo acquired on Sol 3413, March 14, 2022.
Credit: NASA/JPL-Caltech
With lots of bedrock in the workspace, Mars researchers quickly identified a contact science target for the robot’s Alpha Particle X-Ray Spectrometer (APXS) and Mars Hand Lens Imager (MAHLI), “Oosta,” that was slightly less dusty than the surrounding bedrock and nicely layered, Minitti adds.
Curiosity Mast Camera Left image taken on Sol 3413, March 14, 2022.
Credit: NASA/JPL-Caltech/MSSS
Exposed vertical faces
“We decided not to co-target [Chemistry and Camera Laser Induced Breakdown Spectroscopy] ChemCam LIBS with the contact science target, to take advantage of targeting some of the exposed vertical faces on the bedrock slabs around the workspace,” Minitti explains. “Many of them had lovely fine layers exposed and interesting texture apparent even in the Navcam images of the workspace. The selected vertical face got a grandiose name, “Hadrians Wall,” relative to its relatively small height.”
Curiosity Mast Camera Left image taken on Sol 3413, March 14, 2022.
Credit: NASA/JPL-Caltech/MSSS
Curiosity’s ChemCam and Mastcam imaged other, larger features to explore the three dimensional structure of the pediment cap and Gediz Vallis Ridge.
“We had a great view of the edge of the trough and the bedding structure and varying textures therein, so Mastcam covered the topography with a large stereo mosaic ‘Youkil Quarry.’ The top of Gediz Vallis Ridge and a prominent horizon lower down its flank were the targets for two ChemCam long distance [Remote Micro-Imager] RMI mosaics,” Minitti reports.
Curiosity Mast Camera Left image taken on Sol 3413, March 14, 2022.
Credit: NASA/JPL-Caltech/MSSS
Washboard texture
After the drive, which gets the rover closer to a part of the capping unit that has a “washboard” texture from orbit, Mastcam will cover the terrain with mosaics to help with future drive planning, the Mars Descent Imager (MARDI) will capture the bedrock action under Curiosity’s left front wheel, and ChemCam will shoot an autonomously-targeted raster to increase our chemistry measurements on the pediment.
Curiosity Front Hazard Avoidance Camera Left B image taken on Sol 3413, March 13, 2022.
Credit: NASA/JPL-Caltech
The bulk of our environmental observations will take place either after the drive or on the second sol of the Sol 3414-3416 plan.
Curiosity Right B Navigation Camera image acquired on Sol 3414, March 14, 2022.
Credit: NASA/JPL-Caltech
“We will acquire Navcam cloud movies, dust devil imaging, and dust devil movies at multiple times of day, in addition to multiple Navcam and Mastcam images to measure the amount of dust in the atmosphere,” Minitti adds.
Dynamic Albedo of Neutrons (DAN) passive measurements will run for a leisurely 8 hours on the first sol and 3 hours on the second sol, with an active measurement added right after the drive. The Radiation Assessment Detector (RAD) and Rover Environmental Monitoring Station (REMS) also run regularly, “ever the Energizer bunnies of our plans,” Minitti concludes.
Photos from the 21st flight of NASA’s Ingenuity Mars Helicopter have been newly posted.
The rotorcraft traveled 1,214 feet (370 meters) and clocked a speed of 3.85 meters per second. The tiny vehicle stayed aloft for 129.2 seconds.
These images were acquired on March 10th by the craft’s navigation camera mounted in the helicopter’s fuselage and pointed directly downward to track the ground during flight.
Credit: NASA/JPL-Caltech
Credit: NASA/JPL-Caltech
Credit: NASA/JPL-Caltech
Credit: NASA/JPL-Caltech
Credit: NASA/JPL-Caltech
Blue Origin’s 20th mission of its suborbital New Shepard vehicle is slated for March 23rd.
Aboard the crew is Saturday Night Live star Pete Davidson alongside five customers: Marty Allen, husband and wife duo Sharon and Marc Hagle, Jim Kitchen, and George Nield.
This mission is the fourth human flight for the New Shepard program and the 20th in its history.
Marty Allen is a turnaround CEO and angel investor. During his tenure as CEO of Party America, he transformed the company from a broken California retail chain into a large nationwide retailer, leading the company through a bankruptcy restructuring and the acquisition of several competitors. He is also the former CEO of California Closet Company, leading the company to record sales and profitability. Marty also mentors CEOs through his board activities.
Pete Davidson joined the cast of Saturday Night Live in 2014. In 2020, he co-wrote and starred in the semi-autobiographical film The King of Staten Island, which also earned a nomination for The Comedy Movie Star of 2020 at the 46th People’s Choice Awards. Pete also appeared in the 2021 film The Suicide Squad directed by James Gunn.
Sharon Hagle founded SpaceKids Global in 2015, a nonprofit whose mission is to inspire students to excel in STEAM+ education with a focus on empowering young girls. SpaceKids hosts several annual challenges designed to inspire kids to pursue careers in the space industry, including national essay competitions and a partnership with the Girl Scouts of Citrus County. SpaceKids also participates in Club for the Future’s Postcards to Space program. To date, Sharon has reached nearly 100,000 students globally.
Marc Hagle is president and CEO of Tricor International, a residential and commercial property development corporation. Under his direction, the company has developed and owned more than 17.4 million square feet of properties across the United States, including shopping centers, warehouses, medical facilities, recreational facilities, drug stores, and office projects. Marc and his wife, Sharon, are avid philanthropists for numerous arts, sciences, health, and education-related charities.
Jim Kitchen is a teacher, entrepreneur, and world explorer who has visited all 193 U.N.-recognized countries. He’s been a space dreamer since watching NASA’s Apollo rocket launches in Florida as a child. As a college student in the 1980s, he promoted low Earth orbit space trips for a startup. Since 2010, Jim has served on the faculty of University of North Carolina’s Kenan-Flagler Business School, teaching students to create world-changing for-profit and nonprofit ventures.
George Nield is the president of Commercial Space Technologies, LLC, which he founded to encourage, facilitate, and promote commercial space activities. He previously served as associate administrator for the Federal Aviation Administration Office of Commercial Space Transportation and was responsible for licensing and regulating all commercial launch activities. Earlier in his career, he held engineering roles at the Air Force Flight Test Center and the Orbital Sciences Corporation, and he was an assistant professor and research director at the U.S. Air Force Academy. Dr. Nield also served as the manager of the Flight Integration Office for NASA’s Space Shuttle Program.
NS-20 flight patch.
Credit: Blue Origin
Live launch coverage begins on BlueOrigin.com at T-60 minutes. Liftoff is currently targeted for March 23 at 8:30 a.m. CDT / 13:30 UTC from Launch Site One in West Texas.
The European Space Agency (ESA) Council will meet March 16-17, 2022 in Paris in its 306th session. On the agenda: “implications of the current geopolitical situation on ESA’s activities.”
Last month, ESA stated: “We deplore the human casualties and tragic consequences of the war in Ukraine. We are giving absolute priority to taking proper decisions, not only for the sake of our workforce involved in the programs, but in full respect of our European values, which have always fundamentally shaped our approach to international cooperation.”
Furthermore, ESA explained that they were fully implementing sanctions imposed on Russia by the organization’s Member States.
ESA has 22 Member States: Austria, Belgium, the Czech Republic, Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Ireland, Italy, Luxembourg, the Netherlands, Norway, Poland, Portugal, Romania, Spain, Sweden, Switzerland and the United Kingdom. Slovenia, Latvia and Lithuania are Associate Members.
Artist’s impression of the ExoMars 2020 rover and Russia’s stationary surface platform in background.
Credit:
ESA/ATG medialab
Major question mark
“We are assessing the consequences on each of our ongoing programs conducted in cooperation with the Russian state space agency, Roscosmos” as well as with NASA on the International Space Station.
“Regarding the Soyuz launch campaign from Europe’s Spaceport in Kourou, we take note of the Roscosmos decision to withdraw its workforce from Kourou. We will consequently assess for each European institutional payload under our responsibility the appropriate launch service based notably on launch systems currently in operation and the upcoming Vega-C and Ariane-6 launchers.”
A major question mark is going ahead with the joint ESA/Roscosmos ExoMars program. Given the sanctions and the wider context, ESA stated that making a launch in 2022 was “very unlikely.”
ExoMars 2022 was slated for a September 20 departure (the opening of a 12-day launch window), to lift off from Baikonour atop a Russian Proton booster.
And there is the prospect of other programmatic shoes to drop.
Bernard Foing, space scientist and diplomat. Credit: ESA/Philippe Sebirot
Joint experiments
Inside Outer Space reached out to Bernard Foing, Director of the International Lunar Exploration Working Group (ILEWG). He is a retired ESA project scientist for the SMART-1 — the first European mission to the Moon (2003-2006) — and is vice-chair of the influential Committee on Space Research (COSPAR) planetary commission, and exploration panel.
“As a world citizen I am deeply troubled by the Russian/Ukraine conflict, with its casualties, losses and threats for all,” Foing said. “I am also personally affected as I have Ukrainian friends and colleagues from joint collaborations that involved Ukrainian, European and Russian researchers. We had vibrant memories of collaborations, and visits to Kiev (also spelled Kyiv) observatory, Evpatoria, Yalta. We even had joint experiments, including the first growth of flowers (“Moon marigolds”) from lunar soil conducted with Academy of Sciences in 2005.
ESA deplores the consequences of the war in Ukraine, Foing said, and that its decisions take into account not only its workforce but European values.
Factory floor integration of science instruments on Russia’s Luna-25 Moon lander.
Credit: Roscosmos
Analyzing options
As for the ExoMars rover, Foing added, ESA has said that the economic sanctions imposed by Western nations on Russia and the wider context of the war have made a 2022 launch unlikely. ESA is analyzing options for the way forward.
“The war has already affected other projects,” Foing said. “The withdrawal of Russian Soyuz rocket from Kourou is affecting the launch of Galileo navigation satellites. However the EU commission indicated that a solution will be found in due time to guarantee autonomous access to space for their assets.”
As for ESA working with Russia on that country’s series of Luna missions, “one cannot assess yet how the current conflict would affect the upcoming lunar polar lander missions Luna-25, due for launch in July, and Luna-27 planned in 2025 with ESA contributions of a drill and instruments,” Foing said.
What impact will Russian military aggression against Ukraine have on the International Space Station? Credit: NASA
Foing also said that there are possible consequences on the operations of International Space Station, a multi-nation enterprise that has been a unique platform for peaceful collaboration, technology, science, education and public outreach.
Peace bridge
“Having worked as a space scientist and diplomat at ESA for more than 30 years, I believe “we should not waste the efforts of scientists, engineers, technicians, taxpayers money and public support from Europe, Russia and all countries involved in peaceful space science and exploration joint projects.” Foing said.
Rather, Foing continued, we should use space science as a “peace bridge” between countries with dialogue even in times of geopolitical conflict, as Apollo-Soyuz did in 1975.”
Apollo-Soyuz link-up: On July 17, 1975 two Cold War-rivals met in space.
Credit: NASA
Space science collaboration generates knowledge and advanced technologies, inspiring public and young generations, Foing said, underscoring the United Nations Sustainable Development Goals (SDGs), as well as “developing creative minds for the benefits of humanity and for protecting our Earth.”
Lastly, Foing said that a statement has been released, “Make Space, Not War,” from the Space Renaissance Initiative (SRI), for which he has served as elected president since July 2021.
For more information on SDG 18 – SPACE FOR ALL, go to:
For more information on the Space Renaissance Initiative (SRI), go to:
Shenzhou-13 crew members.
Credit: CNS/Inside Outer Space screengrab
China’s Shenzhou-13 crew — Zhai Zhigang, Wang Yaping and Ye Guangfu – are returning to Earth in April. The taikonaut trio entered the Tianhe core module on October 16, 2021.
The under construction space station complex is composed of the core module and the cargo supply crafts Tianzhou-2 and Tianzhou-3.
Next up station modules.
Credit: CNSA
China has planned to carry out six spaceflight missions in 2022, including the launch of the Wentian and Mengtian lab modules, two cargo spacecraft and two crewed spaceships, to complete piecing together the space station outpost by year’s end.
The crews for the next two spaceflights have been selected and are in intense training, according to China Manned Space Agency (CMSA).
Upcoming activity
Key technologies for assembly and construction of China’s space station, such as the technologies of module transfer supported by a robotic arm system and manual remote operation, have all been tested, in preparation for upcoming tasks.
Credit: CCTV/Inside Outer Space screengrab
In 2019, CMSA and the U.N. Office for Outer Space Affairs announced nine international projects selected for China’s space station. The first batch of the projects may be carried out in 2022.
As reported by China Global Television Network (CGTN), Zhou Jianping, the chief designer of China’s manned space program, said he’s looking forward to having foreign astronauts on board the country’s space station after it is completed and can operate stably and safely.
Artist’s impression of the ExoMars 2020 rover and Russia’s stationary surface platform in background.
Credit:
ESA/ATG medialab
The unprovoked Russian military aggression against Ukraine has lit a fuse that has impacted worldwide space cooperation not only here on Earth but set collaborative projects on an unsteady interplanetary trajectory.
Like Russian nesting dolls of diminishing sizes, just how major or minor Russia’s actions will impact the space community of nations in years to come is difficult to foretell. To be sure, it is celestial chess playing. Whether or not Russia rules as a Grandmaster or a secluded space power on the world stage remains to be seen.
Russia’s Luna-25 Moon lander.
Credit: RSC Energia/Roscosmos
Go to my new Scientific American story — “Russia’s War in Ukraine Threatens Joint Missions to Mars, Venus and the Moon – Interplanetary voyages are among several space science collaborations delayed or doomed by the ongoing conflict” – at:
Courtesy of ESA
At the beginning of 2022, the European Space Agency (ESA) awarded two parallel cost-benefit analysis studies, based on two different technical solutions, to Frazer-Nash Consultancy and Roland Berger respectively.
Credit: ESA
These studies, funded through the Preparation element of ESA’s Basic Activities, will evaluate the “business case” for space-based solar power in Europe, using orbiting solar power stations to complement terrestrial renewable power plants.
The outcome of the studies will be ready at the end of summer 2022 and are intended to help inform decision makers in the public and private sector.
Concept for an in-orbit demonstrator of a Space-Based Solar Power beaming satellite.
Credit: ESA
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