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Sols 4202-4204: Sticking Around This image was taken by Left Navigation Camera onboard NASA’s Mars rover Curiosity on Sol 4200 (2024-05-30 13:21:00 UTC). NASA/JPL-Caltech

Earth planning date: Friday, May 31, 2024

Our most recent drive delivered us, as planned, right alongside ‘Whitebark Pass.’ This last drive was only about 9 metres, but Curiosity has been doing a lot of travelling lately and this weekend we’re giving the rover a well-deserved break from driving – but not a break from science! There’s a lot to see at our current location, so we made the decision to stick around a while to take it all in.

The lighter-toned rocks like those of Whitebark pass, which you can see above, are scattered all throughout our workspace and are getting the majority of our attention. The advantage of a nice long weekend plan with no driving is that we have plenty of time to get in contact science, with MAHLI and APXS getting up close with two targets called ‘Gray Peak’ and ‘Snow Lakes.’ ChemCam is joining in with three LIBS targets, ‘Beck Lakes,’ ‘Ten Lakes,’ and ‘Pohono Bridge.’ Mastcam is also taking two large mosaics of Whitebark Pass, looking more at the general topography and texture of the feature as a whole. There’s more than light-toned rocks in this area though – Mastcam will also be taking a look at some nearby bedrock along the channel wall. 

Rocks aren’t the only features of interest here. The drive also put us right next to a rippled sand patch, which we’re taking a look at with both Mastcam and Navcam. Aside from that, the Environmental theme group is taking advantage of staying put this weekend with some of our regular activities, including a number of tau and line of sight observations to look at dust in the atmosphere, a dust devil survey to scan for dust lifting, and several cloud movies. We also have our bi-weekly ChemCam passive sky observation, which gives us an idea of the abundances of oxygen and water vapour in the atmosphere.

Written by Alex Innanen, Atmospheric Scientist at York University

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Last Updated

Jun 05, 2024

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Rocket Lab’s Electron rocket lifted off from Launch Complex 1 in Māhia, New Zealand at 11:15 p.m. NZST, June 5, 2024, carrying a small satellite for NASA’s PREFIRE (Polar Radiant Energy in the Far-InfraRed Experiment) mission. RocketLab

The second of NASA’s PREFIRE (Polar Radiant Energy in the Far-InfraRed Experiment) two satellites is communicating with ground controllers after launching at 3:15 p.m. NZST, Wednesday (11:15 p.m. EDT, June 4). Data from these two shoebox-size cube satellites, or CubeSats, will better predict how Earth’s ice, seas, and weather will change in a warming world — providing information to help humanity thrive on our changing planet.  

The CubeSat launched on top Rocket Lab’s Electron rocket from the company’s Launch Complex 1 in Māhia, New Zealand, and follows the May 25 launch of the first PREFIRE CubeSat. After a 30-day checkout period, when engineers and scientists confirm both CubeSats are operating normally, the mission is expected to operate for 10 months.

“By helping to clarify the role that Earth’s polar regions play in regulating our planet’s energy budget, the PREFIRE mission will ultimately help improve climate and ice models,” said Amanda Whitehurst, PREFIRE program executive, at NASA Headquarters in Washington. “Improved models will benefit humanity by giving us a better idea of how our climate and weather patterns will change in the coming years.”

Capitalizing on NASA’s unique vantage point in space, PREFIRE will help understand the balance between incoming heat energy from the Sun and the outgoing heat given off at Earth’s poles. The Arctic and Antarctica act something like the radiator in a car’s engine shedding much of the heat initially absorbed at the tropics back into space. The majority of that heat is emitted as far-infrared radiation. The water vapor content of the atmosphere, along with the presence, structure, and composition of clouds, influences the amount of radiation that escapes into space from the poles.

The PREFIRE mission will give researchers information on where and when far-infrared energy radiates from the Arctic and Antarctic environments into space. The mission also will use its two CubeSats in asynchronous, near-polar orbits to study how relatively short-lived phenomena like cloud formation, moisture changes, and ice sheet melt affect far-infrared emissions over time. The two satellites pass over the same part of Earth at different times of day, giving researchers information on changing conditions.

“Climate change is reshaping our environment and atmosphere in ways that we need to prepare for,” said Brian Drouin, PREFIRE’s deputy principal investigator at NASA’s Jet Propulsion Laboratory in Southern California. “This mission will give us new measurements of the far-infrared wavelengths being emitted from Earth’s poles, which we can use to improve climate and weather models and help people around the world deal with the consequences of climate change.”

Each CubeSat carries an instrument called a thermal infrared spectrometer, which uses specially shaped mirrors and sensors to measure infrared wavelengths. Miniaturizing the instruments to fit on CubeSats required downsizing some parts while scaling up other components.

“Equipped with advanced infrared sensors that are more sensitive than any similar instrument, the PREFIRE CubeSats will help us better understand Earth’s polar regions and improve our climate models,” said Laurie Leshin, director at NASA JPL. “Their observations will lead to more accurate predictions about sea level rise, weather patterns, and changes in snow and ice cover, which will help us navigate the challenges of a warming world.”

NASA’s Launch Services Program, based out of the agency’s Kennedy Space Center in Florida, in partnership with NASA’s Earth System Science Pathfinder Program, is providing the launch service as part of the agency’s Venture-class Acquisition of Dedicated and Rideshare (VADR) launch services contract.

The PREFIRE mission was jointly developed by NASA and the University of Wisconsin-Madison. NASA JPL manages the mission for the agency’s Science Mission Directorate and provided the spectrometers. Blue Canyon Technologies built the CubeSats and the University of Wisconsin-Madison will process the data the instruments collect. The launch services provider is Rocket Lab USA Inc. of Long Beach, California.

To learn more about PREFIRE, visit:

https://science.nasa.gov/mission/prefire/

-end-

Karen Fox / Elizabeth Vlock

Headquarters, Washington

202-358-1600

karen.c.fox@nasa.gov / elizabeth.a.vlock@nasa.gov

Jane J. Lee / Andrew Wang

Jet Propulsion Laboratory, Pasadena, Calif.

818-354-0307 / 626-379-6874

jane.j.lee@jpl.nasa.gov / andrew.wang@jpl.nasa.gov

It is impossible to pinpoint a single, static definition of what makes a “Digital Transformer.” Although Matt Dosberg’s official title is Digital Transformation and IT Innovation Lead for Goddard Space Flight Center (GSFC), his full contributions to NASA require a lengthier description. He is the nexus for everything under the Digital Transformation (DT) umbrella at GSFC, including digital engineering, AI, data-driven programmatics, data strategy, and more. He serves as liaison to the agency-level DT team and other centers, coordinating across directorates to drive cultural change within the organization, and has sponsored multiple DT events at GSFC, including the center’s first AI Symposium. He strategizes on rolling out proof of concepts and pilots, working toward solutions that address agency-wide barriers to technology readiness and adoption. Dosberg doesn’t just do transformative work—he embodies transformation in an ever-adaptive role.   

In his three and a half years at NASA, Dosberg has impacted the agency beyond quantitative measures. Of course, his formal accomplishments are extensive, including co-leadership positions for the Goddard AI strategy and Goddard Data Strategy Working Group. He works with the GSFC Chief Technologist to co-fund various initiatives for weaving digital technology into next-generation, mission-enabling solutions. However, his commitment to qualitative, ground-level change, impacting the agency through its culture and people, is demonstrated by how he measures success. “You could look at community adoption and engagement,” he says, highlighting his team’s efforts in hosting events and building community around Digital Transformation. “I’m trying to enable teams and empower people to really achieve the best that they can achieve and help transform how we work here at Goddard.”  

Dosberg attributes his team-building skills and service-oriented approach to his experience working at the Department of Homeland Security in US Citizenship and Immigration Services. As a program manager, he led the Digital Innovation & Development team, which worked to transform the asylum and refugee program from paper-based to fully digital processing. “I think that really set me up for success here,” says Dosberg. “That technology background and the experience of going through a successful digital transformation, and the cultural change aspect…all those things are kind of principles and success factors that I brought over to Goddard to lead the DT efforts here.”  

Although Dosberg does not come from explicitly scientific background—he received an undergraduate degree in economics, master’s degree in finance, and MBA—he has always been deeply interested in and curious about technology. In his daily work, he leverages the collaborative capabilities of tools like Microsoft Teams and Mural to aid in brainstorming and soliciting input. When reflecting on the technology he uses to drive transformation within the agency, he highlights his work on DT Catalyst Projects, particularly those aimed at establishing interoperable architecture for managing data. Dosberg sees data as a foundational layer to his work; by developing common tools for accessing, aggregating, and sharing data across the agency, he hopes to strengthen inclusive teaming at an organizational level.  

Dosberg’s dedication is apparent in how thoughtfully he reflects on his past and present experiences as a Digital Transformer. However, his passion truly shines through when he considers the future of Digital Transformation. “There’s real opportunity to transform and change the way that we are working…Jill [Marlowe] and the DT team have done an incredible job on building momentum, getting folks excited, bringing centers together.”  

Although it is difficult to distill the many reasons why Dosberg was selected as the first featured Digital Transformer of the Month, this may be a good place to start: “At the end of the day, I’m just super passionate about the work that NASA does,” he says. “The portfolio is truly inspiring and I’m excited to help position the center to take on new projects, be more efficient, and enable the workforce. That motivates me each day.” 

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