NASA Invites Media to Mars Sample Return Update

NASA Invites Media to Mars Sample Return Update

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NASA will host a media teleconference at 1 p.m. EDT, Monday, April 15, to discuss the agency’s response to a Mars Sample Return Independent Review Board report from September 2023, including next steps for the program.

The teleconference will livestream at:

https://www.nasa.gov/nasatv

Mars Sample Return has been a major long-term goal of international planetary exploration for the past two decades. NASA’s Perseverance rover is collecting compelling science samples that will help scientists understand the geological history of Mars, the evolution of its climate, and prepare for future human explorers. The return of the samples will also help NASA’s search for signs of ancient life.

The media teleconference will share the agency’s recommendations regarding a path forward for Mars Sample Return within a balanced overall science program. The speakers include:

  • NASA Administrator Bill Nelson
  • Nicky Fox, associate administrator, Science Mission Directorate

Media who wish to participate in the teleconference should RSVP by 11 a.m. on April 15 by emailing dewayne.a.washington@nasa.gov.

For more information on NASA’s Mars exploration, visit:

http://nasa.gov/mars

-end-

Dewayne Washington / Karen Fox
Headquarters, Washington
202-358-1100
dewayne.a.washington@nasa.gov / karen.fox@nasa.gov  

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Apr 12, 2024

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Abbey A. Donaldson

Eye, Brain Research and Cardiac Cell Printing Wrap Up Station Week

Eye, Brain Research and Cardiac Cell Printing Wrap Up Station Week

NASA astronaut Tracy C. Dyson works in the BioFabrication Facility's portable glovebag located in the International Space Station's Columbus laboratory module.
NASA astronaut Tracy C. Dyson works in the BioFabrication Facility’s portable glovebag located in the International Space Station’s Columbus laboratory module.

Advanced space biology continued on Friday aboard the International Space Station to develop and test therapies for a range of space-caused and Earthbound health conditions. The Expedition 71 crew members also fit in light maintenance duties and their daily exercise sessions during their busy research schedule.

Eye health has been a main research focus this week as the crew conducted standard eye exams and investigated spaceflight-induced vision issues. Mice on the station are being treated with a gene therapy that may prevent retinal conditions and reduced vision associated with living in space. The mice will be returned aboard the SpaceX Dragon cargo spacecraft for analysis on Earth.

NASA Flight Engineers Matthew Dominick and Jeanette Epps split their shift on Friday and took turns feeding the mice and cleaning the rodent habitats located in the Destiny laboratory module. During the rest of their day, the two astronauts serviced a variety of life support and science hardware and worked out on a treadmill, exercise cycle, and the advanced resistive device.

NASA astronaut Mike Barratt spent most of his day in the Kibo laboratory module servicing brain organoid samples and injecting a test drug into the specimens. Working in Kibo’s Life Science Glovebox, Barratt spent his shift treating the samples and placing them in the Space Automated Bioproduct Laboratory, a research incubator, for later analysis. Results from the study may lead to insights into microgravity’s effect on the central nervous system and potential treatments for neurological diseases on Earth.

3D bioprinting continued onboard the orbital outpost on Friday as NASA Flight Engineer Tracy C. Dyson worked in the Columbus laboratory module operating the BioFabrication Facility. She swapped sample cassettes in and out of the device then stowed printed cardiac cell samples inside the Advanced Space Experiment Processor for a two-month incubation period. The samples will be returned to Earth for future analysis. The biotechnology study may enable future space crews to print on-demand meals and medicines and doctors on Earth to engineer replacement organs and tissues for patients.

The space station’s three cosmonauts had an off-duty day and observed Cosmonautics Day which celebrates cosmonaut Yuri Gagarin’s first spaceflight on April 12, 1961. Station Commander Oleg Kononenko and Flight Engineers Nikolai Chub and Alexander Grebenkin downlinked a video message commemorating Gagarin’s first mission. The trio from Roscosmos then deactivated and disconnected sensors that were monitoring and recording their body functions.


Learn more about station activities by following the space station blog, @space_station and @ISS_Research on X, as well as the ISS Facebook and ISS Instagram accounts.

Get weekly updates from NASA Johnson Space Center at: https://roundupreads.jsc.nasa.gov/

Get the latest from NASA delivered every week. Subscribe here: www.nasa.gov/subscribe

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Abby Graf

Tech Today: Folding NASA Experience into an Origami Toolkit 

Tech Today: Folding NASA Experience into an Origami Toolkit 

3 min read

Preparations for Next Moonwalk Simulations Underway (and Underwater)

An origami depiction of a Stag Beetle
Though the art of origami is centuries old, until the late 20th century it was considered virtually impossible to make insects or other figures with many long, complex protrusions. That changed with the introduction of math-based origami design, which Lang helped pioneer. Today, he’s still drawn to the challenges presented by insects and other arthropods, and they are well-represented in the menagerie of his origami gallery.

After uncovering the mathematical underpinnings of origami, Robert Lang left a 20-year engineering career, including over four years at NASA’s Jet Propulsion Laboratory in Southern California, to pursue his lifelong passion. However, while he was working at JPL, Lang picked up an important key to computational design, allowing him to turn paper into impossibly intricate 3D forms.

In the center’s Micro Devices Laboratory in the late 1980s and early ’90s, Lang worked on building an optical computer that uses light rather than electricity to carry out calculations. This work introduced him to the concept of nonlinear constrained optimization.

Lang explained that a simple nonlinear constrained optimization problem is like packing different-sized balls into a box. The constraint is that the balls can’t overlap, and the solutions are nonlinear because the balls can be any direction or distance from each other. The optimization is making the box as small as possible.

System design optimization for lasers and other components requires minimizing energy consumption, semiconductor materials, and other costs. In origami, optimization means creating the most extensive form possible using a single sheet of paper.

In the mid-1990s, he took his expertise gain at JPL and created an open-source software called TreeMaker, the first program available to design complex origami figures. Lang’s design software uses an equation to map the points that will become features like a head and limbs. It helps decide exactly how far apart any two points have to be, depending on their location in the final shape.

In 2001, he left his last engineering job to become a full-time origamist, and he remains one of the world’s leading figures at the intersection of math and paper folding. Lang’s work ranges from small paper sculptures to huge public art made from metal and other materials, which he co-creates with other artists.

Artists depiction of the Starshade spacecraft concept, showing a space telescope next to an unfurled light-blocking device
Since Lang left NASA, the agency has called him back in to consult on a few projects that capitalized on his dual background in engineering and origami. One of those was the Starshade concept, a design for a baseball diamond-sized disk that would fold up tightly to fit in a rocket fairing and then unfurl in space. There, it would block the light from a given star so a space telescope could photograph its planets.
Credit: NASA

The art of folding has even crept into space technology in recent years. Commercial companies now seek out Lang for his origami and engineering backgrounds to consult on folding hardware, including a collapsible radio antenna and Lawrence Livermore National Laboratory’s Eyeglass space telescope. He’s also returned to NASA to help figure out how to fold large objects for launch inside rocket fairings.

“The irony is that, when I was employed full-time at NASA, I was not working on origami, but after I left, I’ve been invited back a couple of times to work on origami-related projects,” he said.

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Andrew Wagner

Hubble Spots a Galaxy Hidden in a Dark Cloud

Hubble Spots a Galaxy Hidden in a Dark Cloud

2 min read

Hubble Spots a Galaxy Hidden in a Dark Cloud

A spiral galaxy seen nearly face-on. The disk holds many tightly wound spiral arms. They contain small strands of reddish dust, near the center. On the left side, the disk features glowing patches of star formation. The whole right side, and part of the center, is obscured by a large cloud of dark grey gas which crosses the image.]
This Hubble image features the spiral galaxy IC 4633.
ESA/Hubble & NASA, J. Dalcanton, Dark Energy Survey/DOE/FNAL/DECam/CTIO/NOIRLab/NSF/AURA; Acknowledgement: L. Shatz

The subject of this image taken with the NASA/ESA Hubble Space Telescope is the spiral galaxy IC 4633, located 100 million light-years away from us in the constellation Apus. IC 4633 is a galaxy rich in star-forming activity and also hosts an active galactic nucleus at its core. From our point of view, the galaxy is tilted mostly towards us, giving astronomers a fairly good view of its billions of stars.

However, we can’t fully appreciate the features of this galaxy — at least in visible light — because it’s partially concealed by a stretch of dark dust (lower-right third of the image). This dark nebula is part of the Chamaeleon star-forming region, itself located only around 500 light-years from us, in a nearby part of our Milky Way galaxy. The dark clouds in the Chamaeleon region occupy a large area of the southern sky, covering their namesake constellation but also encroaching on nearby constellations, like Apus. The cloud is well-studied for its treasury of young stars, particularly the cloud Cha I, which both Hubble and the NASA/ESA/CSA James Webb Space Telescope have imaged.

The cloud overlapping IC 4633 lies east of the well-known Cha I, II, and III, and is also known as MW9 and the South Celestial Serpent. Classified as an integrated flux nebula (IFN) — a cloud of gas and dust in the Milky Way galaxy that’s not near to any single star and is only faintly lit by the total light of all the galaxy’s stars — this vast, narrow trail of faint gas that snakes over the southern celestial pole is much more subdued looking than its neighbors. Hubble has no problem making out the South Celestial Serpent, though this image captures only a tiny part of it.

Text credit: European Space Agency (ESA)

Media Contact:

Claire Andreoli
NASA’s Goddard Space Flight CenterGreenbelt, MD
claire.andreoli@nasa.gov

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Advanced Tech and Life Science on Station Today Promoting Health

Advanced Tech and Life Science on Station Today Promoting Health

The Soyuz MS-25 crew ship is pictured docked to the Prichal docking module as the space station soared into an orbital sunset above the Indian Ocean.
The Soyuz MS-25 crew ship is pictured docked to the Prichal docking module as the space station soared into an orbital sunset above the Indian Ocean.

Nanomaterials manufacturing, 3D bioprinting, and astronaut eye health were the main research topics aboard the International Space Station on Friday. The Expedition 71 crew members also continued servicing spacesuits and conducted an emergency drill.

The SpaceX Dragon cargo spacecraft recently delivered to the orbital outpost a biotechnology study to demonstrate the in-space production of nanomaterials that mimic DNA. NASA Flight Engineers Jeanette Epps and Mike Barratt worked on the second portion of that experiment on Thursday mixing then treating the research samples for analysis. Epps began her day mixing solutions in the Life Science Glovebox to create specialized nanomaterials. During the afternoon, Barratt applied sound and light treatments to the samples then stowed them aboard Dragon for analysis back on Earth. Results may lead to advanced therapies for space-caused and Earthbound health conditions.

The duo partnered back together at the end of the day for eye scans using standard medical imaging gear found in an optometrist’s on Earth. Barratt operated the hardware with guidance from doctors on the ground peering into Epp’s eyes and examining her retina and optic nerve for the B Complex eye health investigation.

Cardiac cell printing was back on the schedule on Thursday as NASA Flight Engineer Matthew Dominick operated the BioFabrication Facility located inside the Columbus laboratory module. He swapped sample cassettes inside the bioprinter then processed the printed cell samples for incubation. Results may enable future space crews to print meals and medicines or doctors to manufacture organs and tissues for patients on Earth.

NASA astronaut Tracy C. Dyson joined Roscosmos cosmonauts Oleg Kononenko and Nikolai Chub and practiced a simulated emergency return to Earth. The trio trained on a computer on the steps necessary to quickly enter the Soyuz crew ship and undock from the station for a controlled descent back to Earth.

Next, Dyson spent the rest of her day analyzing microbe samples, conducting a health checkup, and replacing orbital plumbing components. Kononenko and Chub activated a pair of Orlan spacesuits, installed components on the suits, then performed leak checks ahead of a Roscosmos spacewalk planned for April 25.

Flight Engineer Alexander Grebenkin started his day with blood tests then attached electrodes to himself that will monitor his heart activity for 24 hours. Afterward, he worked on Roscosmos life support maintenance before installing imagery hardware to study Earth’s upper atmosphere.


Learn more about station activities by following the space station blog@space_station and @ISS_Research on X, as well as the ISS Facebook and ISS Instagram accounts.

Get weekly video highlights at: https://roundupreads.jsc.nasa.gov/videoupdate/

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Mark Garcia