The Tennessee Vols are reportedly 'trending' for a coveted transfer guard who is visiting Knoxville  A to Z Sports

Rangers prospects stock report: Who’s trending up, down, including Malcolm Spence  Forever Blueshirts

5 Trending Spring Pedicure Colors to Try, From Milky Pink to Vanilla Chrome  instyle.com

Prediction: Vanderbilt trending for offensive target  On3

Realistic, no edits required – why the Setlog app is trending in South Korea  South China Morning Post

1. The Trump phone has a new look — but it's still not clear when it will be released  Business Insider
2. Trump Org Files Trademark for ‘The 47 Plan’, Claiming a Mobile Phone Launch is Coming  Gerben IP
3. Trump Mobile Redesigns the T1 Phone, But Don't Waste Your Money on a Preorder  PCMag
4. The new Trump Phone design is here  The Verge
5. Trump Phone Gets Redesign, New Website And Possible Higher Price - Alphabet (NASDAQ:GOOG)  Benzinga

1. Sony Xperia 1 VIII: Launch details of Sony's new flagship phone surface in the wild  Notebookcheck
2. Sony may stick to this ancient feature on the upcoming Xperia 1 VIII  PhoneArena
3. Latest Xperia 1 VIII renders confirm new camera island design - GSMArena.com news  GSMArena.com
4. The Sony Xperia 1 VIII isn’t giving up the headphone jack  Phandroid
5. Sony Xperia 1 VIII Could Feature a Headphone Jack and Support Wireless Charging, FCC Listing Suggests  Gadgets 360

1. Back button hijacking to be penalised in Google crackdown  BBC
2. Google Is About to Punish Websites for That Annoying Browser Back Button Trick  CNET
3. Google will begin punishing sites for back button hijacking in June  Ars Technica
4. Google will punish sites that hijack your back button  Mashable
5. Google Search tackles sites that try to stop you from leaving when you hit the back button  Engadget

Google rolls out April Android Canary build with experimental features for Pixel devices  Android Authority

1. Prime Video Bundles Apple TV With Peacock Premium Plus For $19.99 A Month  Deadline
2. Apple TV and Peacock Premium Plus streaming bundle now available on Prime Video in the US for $19.99 per month  About Amazon
3. Apple TV users get $2/month Peacock, as bundle expands to new places  9to5Mac
4. Amazon has an easy to way reduce your monthly streaming bills  Trusted Reviews
5. Apple TV and Peacock Premium Plus just got cheaper together, and Amazon is the one making it happen  Digital Trends

Services Catalog

Click here to view the FY26 Services Catalog

The catalogs provide service description, chargeback rate, unit of measure, and service level indicators for each NSSC service.

Service Level Agreement (SLA)

Click here to view the Service Level Agreement

The SLA provides information about roles, responsibilities, rates, and service level indicators for all NASA Centers. The SLA is negotiated on an annual basis in line with the fiscal year. A single SLA is shared by all NASA Centers and signed by the Associate Administrator, Chief Financial Officer, Chief Information Officer, and the Office of Inspector General. The SLA provides for the delivery of specific services from the NSSC to NASA Centers and Headquarters Operations in the areas of:

• Financial Management
• Procurement
• Human Resources
• Information Technology
• Agency Business Services

NSSC Bill (Formerly know as Performance and Utilization Report (PUR))

*** On-Line Course Management and Training Purchases have been realigned to the OLC &Training Purchases section of the bill in accordance with the realignment of training funds. Center Special Projects have been consolidated into one Special Projects bill with the funding Center identified for each project.***

FY 2026 – Utilization Reports
October 2025
November 2025
December 2025
January 2026
February 2026

FY 2025 – Utilization Reports

September 2025
August 2025
July 2025
June 2025
May 2025

April 2025
March 2025
February 2025
January 2025
December 2024
November 2024
October 2024

FY 2024 – Utilization Reports
September 2024
August 2024
July 2024
June 2024
May 2024
April 2024
March 2024
February 2024
January 2024
December 2023
November 2023
October 2023

 

Early spring around Hudson Bay in northern Canada is largely indistinguishable from winter. Sea ice still clings to land, and the boggy lowlands remain frozen. In the dulled tones of the boreal landscape, however, snow helps accentuate the area’s subtle topography. In late March 2026, an astronaut aboard the International Space Station captured this photo of frozen channels feeding Hannah Bay—a southern offshoot of James Bay, which is itself an extension of Hudson Bay.

Some of the patterns visible in the photo relate to the region’s ice age history. During the Pleistocene Epoch, the Laurentide Ice Sheet covered most of present-day Canada. It centered on Hudson Bay, where its immense weight depressed the land. Since the Last Glacial Maximum about 20,000 years ago, the ice has retreated and the land has been bouncing back. Glacial isostatic adjustment, or isostatic rebound, is relatively rapid around southern Hudson Bay; the surface continues to rise about 10 millimeters (0.4 inches) per year, or 1 meter per century.

The process has left a fingerprint on the newly emerged land. In this photo, faint, closely spaced ridges parallel the shore of ice-covered James Bay at the terminus of the Harricana river. These beach ridges formed from tidal action reworking sands and silts along the shore, with newer ridges developing along the water as land rises and relative sea level drops.

The Harricana and adjacent waterways flow through boreal peat bogs, or muskeg, in the Hudson Bay Lowlands on their journey out to sea. As the world’s second largest peatland complex, the lowlands store significant amounts of soil carbon. Elsewhere around the bay, the landscape retains features carved by glaciers, such as drumlins and eskers.

With the approach of summer, the muted colors of the frozen months give way to a more varied palette. Peatlands take on a lush, green appearance, and partially decayed organic matter in the peat releases tannins that stain the water dark brown like a strong tea. Sea ice that has remained attached to the James Bay shoreline for several months typically begins to break up in mid- to late-May, with melting complete by the end of July.

Astronaut photograph ISS074-E-417241 was acquired on March 26, 2026, with a Nikon Z9 digital camera using a focal length of 200 millimeters. It was provided by the ISS Crew Earth Observations Facility and the Earth Science and Remote Sensing Unit at NASA Johnson Space Center. The image was taken by a member of the Expedition 74 crew. The image has been cropped and enhanced to improve contrast, and lens artifacts have been removed. The International Space Station Program supports the laboratory as part of the ISS National Lab to help astronauts take pictures of Earth that will be of the greatest value to scientists and the public, and to make those images freely available on the Internet. Additional images taken by astronauts and cosmonauts can be viewed at the NASA/JSC Gateway to Astronaut Photography of Earth. Story by Lindsey Doermann.

References & Resources

• EBSCO Research Starters (2024) Hudson Bay. Accessed April 14, 2026.
• GRACE Tellus, Glacial Isostatic Adjustment (GIA). Accessed April 14, 2026.
• NASA Earth Observatory (2023, June 17) James Bay Melts Out. Accessed April 14, 2026.
• NASA Earth Observatory (2016, October 1) Some Tea With Your River? Accessed April 14, 2026.
• Price, J.S., et al. (1988) Vegetation patterns in James Bay coastal marshes. II. Effects of hydrology on salinity and vegetation. Canadian Journal of Botany, 66(12): 2586-2594. 
• Rice, J.M., et al. (2024) The surficial geology record of ice stream catchment dynamics and ice-divide migration in the Quebec-Labrador sector of the Laurentide Ice Sheet. Quaternary Science Advances, 13, 100123.

Written by Abigail Fraeman, Deputy Project Scientist at NASA’s Jet Propulsion Laboratory

Earth planning date: Friday, April 10, 2026

Curiosity spent the past week driving towards a small crater, about 10 meters (32 feet) in diameter. Today the team informally named this crater “Antofagasta,” after a region and major city in Chile next to the Atacama. Craters are very cool for many reasons, one of which is that they act as “nature’s drill,” exposing material to the surface through their walls and ejecta that would have otherwise been buried. From orbit, Antofagasta looks like it might be a relatively young crater (less than 50 million years old, which is young on a Martian geologic scale!), so there may be material in and around the crater that was only exposed to the harsh, organic-molecule destroying radiation environment on Mars’ surface in the very recent past. Curiosity has already found many hardy organic molecules that survived billions of years, but could there be an even bigger treasure trove of complex chemistry deep below the surface? Antofagasta could help us answer this question… but only if the crater is big enough to have excavated deep rocks, if it really is relatively young, and if we are able to find a rock we are confident was excavated from depth that also meets the physical requirements for Curiosity’s drill. That’s a lot of “ifs,” but also too exciting of an opportunity to drive by! We’ll be able to answer all these “ifs” and decide what to do once we get a much closer look at the crater from the ground next week.

In the meantime, the journey to Antofagasta has been extremely interesting. Many of the rocks we’ve driven over have these incredible textures — thousands of honeycomb-shaped polygons crisscross their surface. Here’s one example, and here’s another example, both from Sol 4859. We’ve seen polygon-patterned rocks like these before, but they didn’t seem quite this dramatically abundant, stretching across the ground for meters and meters in our Mastcam mosaics. This week we continued to collect lots of images and chemical data that will help us distinguish between different hypotheses for how the honeycomb textures formed. We also continued to monitor Mars’ environment, with lots of dust-devil searches and images toward the horizon to characterize the Martian atmosphere as it grows predictably dustier approaching the warm summer months.

I’m looking forward to seeing the data that should arrive on Earth by Tuesday morning. If all goes well, Curiosity will be perched on the edge of Antofagasta, sending images that will allow us humans to see the crater rim and into the interior for the first time from the ground.

Scientists have found that young stellar cousins of our Sun are calming down and dimming more quickly in their X-ray output than previously thought, according to a new study using NASA’s Chandra X-ray Observatory. A paper describing the results published Monday in The Astrophysical Journal.

Unlike in the new movie “Project Hail Mary,” this quieting of young stars is a benefit for the prospects for life on orbiting planets around these stars — not a threat.

Astronomers used Chandra and other telescopes to monitor how powerful radiation from young stars — often in the form of dangerous X-rays — can pummel planets surrounding them. They did not know, however, how long this high-energy barrage continued.

This latest study looked at eight clusters of stars between the ages of 45 million and 750 million years old. The researchers found that Sun-like stars in these clusters unleashed only about a quarter to a third of the X-rays they expected.

“While science fiction – like the microbes in Project Hail Mary – imagines alien life that dims stellar output by consuming its energy, our real observations reveal a natural ‘quieting’ of young Sun-like stars in X-rays,” said Konstantin Getman, the lead author of the new study from Penn State University. “This is not because an outside force is consuming their light, but because their internal generation of magnetic fields becomes less efficient.”

In fact, this calming could be a boon to the formation of life on planets around stars that are younger versions of our own Sun. (Our Sun is about 4.6 billion years old, so significantly older than the stellar cousins in this study.) This is because large amounts of X-rays can erode a planet’s atmosphere and prevent formation of molecules necessary for organic life as we know it. On average, three-million-year-old stars with a mass equal to the Sun produce about a thousand times more X-rays than today’s Sun. Meanwhile, 100-million-year-old solar-mass stars are about 40 times brighter in X-rays than the present Sun.

“It’s possible that we owe our existence to our Sun doing the same thing, several billion years ago, that we see these young stars doing now,” said co-author Vladimir Airapetian of NASA’s Goddard Space Flight Center in Greenbelt, Maryland. “This real-world dimming echoes the dramatic stellar change in fiction, but it may be even more fascinating because it highlights our own Sun’s actual history.”

The researchers found that stars with about the same mass as the Sun quieted down relatively rapidly — after a few hundred million years — while ones with less mass kept up their high levels of X-ray emission for longer. Combined with a decrease in the energy of the X-rays and the disappearance of energetic particles, the Sun-sized stars are apparently better suited to host planets with robust atmospheres and possibly blossoming life than previously thought.

The research team also used data from ESA’s (European Space Agency’s) Gaia satellite and X-ray data from the ROSAT (ROentgen SATellite) mission. This data allowed them to identify the stars that were members of the clusters (not foreground or background stars). To measure the X-ray output from the stars, they made new Chandra observations of five clusters with ages between 45 million and 100 million years, in addition to using Chandra and ROSAT data from archives to study three older clusters with ages between 220 and 750 million years.

Astronomers have not been able to study the X-ray output of stars in this age range well before. Most astronomers have relied on sparse data and a derived relation that predicts the X-ray emission young stars should produce based on their ages and rates of spin. Older and more slowly rotating stars are usually fainter in X-rays, but the team found that X-ray output drops off about 15 times more rapidly than the derived relation predicts during this specific adolescent phase.

“We can only see our Sun at this current snapshot in time, so to really understand its past we must look to other stars with about the same mass,” said co-author Eric Feigelson, also of Penn State University. “By studying X-rays from stars that are hundreds of millions of years old, we have filled in a large gap in our understanding of their evolution.”

While they are still investigating the cause of this slower-than-expected activity, scientists think the process that generates magnetic fields in these stars may become less efficient. This would lead to the stars becoming quieter in X-rays more quickly, as they age. The researchers will continue to look at this and other potential causes for the rapid dimming of young Sun-like stars.

NASA’s Marshall Space Flight Center in Huntsville, Alabama, manages the Chandra program. The Smithsonian Astrophysical Observatory’s Chandra X-ray Center controls science operations from Cambridge, Massachusetts, and flight operations from Burlington, Massachusetts.

Read more from NASA’s Chandra X-ray Observatory

Learn more about the Chandra X-ray Observatory and its mission here:

https://science.nasa.gov/chandra

https://chandra.si.edu

News Media Contact

Megan Watzke
Chandra X-ray Center
Cambridge, Mass.
617-496-7998
mwatzke@cfa.harvard.edu

Joel Wallace
Marshall Space Flight Center, Huntsville, Alabama
256-544-0034
joel.w.wallace@nasa.gov

Since it began in 1958, NASA has been charged by law with spreading the word about its work to the widest extent practicable. From typewritten press releases to analog photos and film, the agency has effectively moved into social media and other online communications. NASA’s broad reach across digital platforms has been recognized by the International Academy of Digital Arts and Sciences (IADAS), with 7 nominations across multiple categories for the academy’s 30th annual Webby Awards.

Public Voting Opportunities

Voting for the Webby People’s Voice Awards—chosen by the public—is open now through Thursday, April 16. Voting links for each category are listed below.

30th Annual Webby Award Nominees

AI, Immersive & Games

Hearing Hubble
NASA Goddard
Immersive Content: Science & Education

Social

NASA’s Webb Telescope and the Universe: Using social media to connect us all 
NASA Goddard
Social Campaigns: Education & Science

Nerdy Words 
NASA Marshall
Social Video Short Form: Education & Science

NASA Astronauts Posts from Space 
NASA 
General Social: Education & Science 

Video & Film

Cosmic Dawn (NASA+ Original Documentary)
NASA
General Video and Film: Documentary: Longform

Podcasts 

Houston We Have a Podcast: Artemis II: The Mission
NASA Johnson
Individual Episodes: Science & Education

NASA’s Curious Universe: The Earth Series 
NASA
Limited-Series & Specials: Health, Science, & Education

About the Webby Awards

Established in 1996 during the web’s infancy, The Webbys is presented by the IADAS—a 3000+ member judging body. The Academy is comprised of Executive Members—leading Internet experts, business figures, luminaries, visionaries, and creative celebrities—and associate members who are former Webby winners, nominees and other internet professionals.

The Webby Awards presents two honors in every category—the Webby Award and the Webby People’s Voice Award. Members of the International Academy of Digital Arts and Sciences (IADAS) select the nominees for both awards in each category, as well as the winners of the Webby Awards. In the spirit of the open web, the Webby People’s Voice is chosen by the voting public, and garners millions of votes from all over the world.

Allbirds is ditching wool sneakers for AI servers, rebranding as NewBird AI after locking in a $50M convertible financing facility.

Sweden's minister for civil defense said Russian hackers are "now attempting destructive cyber attacks against organizations in Europe."

The company cites advancements in AI for the cuts.

Reid Hoffman says tracking AI token use can gauge adoption, but cautions it should be paired with context and not treated as a direct productivity metric.

Adobe says the assistant can work across apps like Firefly, Photoshop, Premiere, Lightroom, Express, Illustrator and its other apps to do tasks for you.