1. Report: iPhone Air is about twice as popular compared to the Plus model it replaced  9to5Mac
2. The Air Apparent: Apple’s Custom Silicon Comes of Age  ookla.com
3. iPhone Air C1X modem matches Qualcomm speed & wins on latency  AppleInsider
4. Apple’s C1X Modem Has A Huge Lead Over Qualcomm’s X80 Modem On Latency, Maintains Near-Parity On Download Speeds In Most Markets  Wccftech
5. iPhone Air sells better than you might realize  Cult of Mac

1. Samsung adds native AirDrop support to Galaxy S26 devices  The Verge
2. Samsung adds AirDrop support to Galaxy S26  Mashable
3. Samsung Phones Can Now Share With iPhones Using Apple’s AirDrop Protocol  Bloomberg.com
4. Samsung Surprises Millions Of Galaxy Users With New Android Upgrade  Forbes
5. Samsung Brings AirDrop Support to Quick Share with Galaxy S26 Series  samsung.com

1. Google Search test replaces headlines and website titles with AI  9to5Google
2. Google Search is now using AI to replace headlines  The Verge
3. Google confirms AI headline rewrites test in Search results  Search Engine Land
4. As if Gutting Publishers' Traffic Wasn't Enough, Google's AI Is Now Rewriting Headlines, Too  extremetech.com
5. Google Search 'experiment' uses AI to rewrite news headlines  Android Police

1. Hackaday Links: March 22, 2026  Hackaday
2. Exclusive: Amazon plans smartphone comeback more than a decade after Fire Phone flop  Reuters
3. There Aren’t a Lot of Reasons to Get Excited About a New Amazon Smartphone  WIRED
4. Amazon Is Quietly Building a New AI‑First Smartphone Called ‘Transformer’  extremetech.com
5. Why Amazon’s second shot at a smartphone might not be as crazy as it sounds  GeekWire

A new data visualization illustrates how an experimental NASA technology can provide extra lead time to communities in the path of a tsunami. Called GUARDIAN (GNSS Upper Atmospheric Real-time Disaster Information and Alert Network), the software detects slight distortions in satellite navigation signals to spot hazards on the move..

The animation breaks down a real-life case study: last summer’s massive Kamchatka earthquake and the tsunami that it sent racing across the Pacific and towards Hawaii at over 500 mph (805 kph).

The visualization shows the magnitude 8.8 earthquake (seen in purple) strike off the Russian coast on July 29, 2025, triggering the tsunami. The red, orange, yellow, and green ringlets represent real-time readings from ground stations tracking GPS and other navigational satellite signals. The disturbances were spotted by GUARDIAN’s artificial intelligence-powered detection algorithms as soon as eight minutes after the earthquake.

For the next several hours, signs of the tsunami were picked up by GUARDIAN across the Pacific Ocean in near real time. The system flagged an incoming wave off the coast of Kauai some 32 minutes before it made landfall and was detected by tide gauges (shown in blue).

The results highlight GUARDIAN’s potential to augment existing early warning systems, said Camille Martire, one of its developers at NASA’s Jet Propulsion Laboratory in Southern California.

Currently, determining whether an earthquake generated a tsunami remains a challenge. Forecasters rely on seismic data and computer simulations to make their best prediction, then wait for pressure sensors attached to the ocean floor to confirm a passing wave. Those sensors work well but are expensive and thinly dispersed. Gaps in coverage remain. And in those gaps, warning time disappears.

The GUARDIAN approach is complementary and cost effective because it monitors existing data from GPS and other constellations that make up the Global Navigation Satellite System. It’s also free to access, though for now best suited to analysts trained to interpret its findings.

How GUARDIAN works

All day, every day, geopositioning constellations transmit radio signals to ground stations around the globe. On the ground, the data is refined to sub-decimeter (less than 10 centimeters) positioning accuracy by JPL’s Global Differential GPS System. Before the signals get there, however, they must travel through an electrically charged skin of plasma called the ionosphere.

Solar storms and other space weather can wreak electrical mayhem in the ionosphere, and so can events on Earth. Tsunamis and earthquakes, by displacing large amount of air at Earth’s surface, unleash pressure waves that can slightly perturb the radio signals coming down from satellites. While systems are in place to correct for this “noise,” GUARDIAN considers it a useful signal.

Currently, GUARDIAN scours data from more than 350 GNSS ground stations around the Pacific Ring of Fire, a hotbed for the ocean’s deadliest waves. And the system is not confined to tsunamis. Earthquakes, volcanic eruptions, missile tests, spacecraft reentries, meteoroid splashdowns — anything that produces a large rumble on Earth is potentially fair game. While the Kamchatka event didn’t cause widespread damage to people or property, it showed how the next time disaster strikes, NASA science could give communities a few more minutes to act.

GUARDIAN is being developed at JPL by the GDGPS project, which is partially supported by NASA’s Space Geodesy Project.

To learn more, visit: https://guardian.jpl.nasa.gov/

Media Contacts

Andrew Wang / Andrew Good
Jet Propulsion Laboratory, Pasadena, Calif.
626-379-6874 / 818-393-2433
andrew.wang@jpl.nasa.gov / andrew.c.good@jpl.nasa.gov

Written by Sally Younger

2026-017

Explore More

1 min read

SWOT Mission Unlocks a New View of Our Waterways

Explore how rivers move, change, and sustain life across the planet with SWOT data.

Article 1 hour ago

5 min read

A Fault Line in Full Bloom

Plains around the San Andreas Fault and across Carrizo Plain National Monument are awash with…

Article 15 hours ago

3 min read

Restless Kīlauea Launches Lava and Ash

Episode 43 of the Hawaiian volcano’s current eruption was marked by high lava fountains and…

Article 4 days ago

Keep Exploring

Discover More Topics From NASA

Jet Propulsion Laboratory

Climate Change

NASA is a global leader in studying Earth’s changing climate.

NASA Earth Science Disasters Program

Eyes

NASA’s Eyes is a suite of 3D visualization applications that allows everyone to explore and understand real NASA data and…

Explore how rivers move, change, and sustain life across the planet.

Using data from the SWOT (Surface Water and Ocean Topography) mission, jointly developed by the NASA/JPL and the Centre National d’Études Spatiales with contributions from the Canadian Space Agency and the United Kingdom Space Agency, scientists can now measure rivers continuously and across the entire globe for the first time in human history.

From the Mississippi River to the Amazon, these observations reveal how rivers flow, how they change over time, and how they support ecosystems, economies, and communities worldwide like never before.

Explore More

5 min read

A Fault Line in Full Bloom

Plains around the San Andreas Fault and across Carrizo Plain National Monument are awash with…

Article


14 hours ago

3 min read

Restless Kīlauea Launches Lava and Ash

Episode 43 of the Hawaiian volcano’s current eruption was marked by high lava fountains and…

Article


4 days ago

3 min read

NASA Laser Reflecting Instrument Makes GPS Satellite More Accurate

Article


4 days ago

Keep Exploring

Discover More Topics From NASA

Earth

Your home. Our Mission. And the one planet that NASA studies more than any other.

Earth Observatory

NASA’s Earth Observatory brings you the Earth, every day: images, stories, and discoveries about the environment, Earth systems, and climate.

Earth Science at Work

NASA Earth Science helps Americans respond to challenges and societal needs — such as wildland fires, hurricanes, and water supplies…

Earth Videos

Collection of Earth science videos explaining a variety of concepts and activities performed by NASA’s Earth Science Division.

This March 16, 2026, image from NASA’s Hubble Space Telescope and the James Webb Space Telescope takes a closer look at the core of Messier 101, also known as the Pinwheel Galaxy. At 25 million light-years away, M101 is one of the closest “face-on” spiral galaxies to us. With that in mind, Hubble’s ultraviolet, visible, and near-infrared data were taken as part of studies to find out more about its stellar population and galactic structure.

See more images from Hubble’s Messier Marathon 2026.

Image credit: NASA, CSA, ESA, D. Calzetti (University of Massachusetts – Amherst), C. Clark (Space Telescope Science Institute – ESA – JWST), K. Kuntz (The John Hopkins University), and B. Shappee (University of Hawaii); Processing: Gladys Kober (NASA/Catholic University of America)

NASA will host a public event at 9 a.m. EDT on Tuesday, March 24, at the Mary W. Jackson NASA Headquarters in Washington to outline how the agency is executing President Donald J. Trump’s National Space Policy and accelerating preparations for America’s return to the surface of the Moon by 2028.

The program will open with remarks from NASA Administrator Jared Isaacman, followed by a series of high-level panels providing updates on mission priorities, including sending the first astronauts to the lunar surface in more than 50 years, establishing the initial elements of a permanent lunar base, getting America underway in space on nuclear propulsion, and other objectives. 

At 4:45 p.m., NASA will hold a live news conference from headquarters to provide an update on the agency’s progress toward implementing the National Space Policy and recapping major announcements discussed throughout the day.  

NASA participants include: 

• Administrator Jared Isaacman
• Associate Administrator Amit Kshatriya
• Dana Weigel, program manager, International Space Station Program
• Carlos Garcia-Galan, program executive, Moon Base 
• Steve Sinacore, program executive, Fission Surface Power 
• Dr. Nicola Fox, associate administrator, Science Mission Directorate 
• Dr. Lori Glaze, program manager, Moon to Mars Program

The full program and news conference will stream live on NASA+, Amazon Prime, and the agency’s YouTube channel. Learn how to stream NASA content through a variety of online platforms, including social media.

This event is invitation-only for in-person attendance. To participate virtually in the news conference, members of the media must RSVP no later than two hours before the start of the event to Cheryl Warner at: cheryl.m.warner@nasa.gov. NASA’s media accreditation policy is available online. 

For more information about NASA’s missions, visit:

https://www.nasa.gov

-end-

Bethany Stevens / Cheryl Warner
Headquarters, Washington
202-358-1600
bethany.c.stevens@nasa.gov / cheryl.m.warner@nasa.gov

4 Min Read

NASA’s Hubble Revisits Crab Nebula to Track 25 Years of Expansion

A quarter-century after its first observations of the full Crab Nebula, NASA’s Hubble Space Telescope has taken a fresh look at the supernova remnant. The result is an unparalleled, detailed look at the aftermath of a supernova and how it has evolved over Hubble’s long lifetime. A paper detailing the new Hubble observation is published in The Astrophysical Journal.

This new Hubble observation continues a legacy that stretches back nearly 1,000 years, when astronomers in 1054 recorded the supernova as an impressively bright new star that, for weeks, was visible even during the day. The Crab Nebula is the aftermath of SN 1054, located 6,500 light-years from Earth in the constellation Taurus.

“We tend to think of the sky as being unchanging, immutable,” said astronomer William Blair of Johns Hopkins University, who led the new observations. “However, with the longevity of the Hubble Space Telescope, even an object like the Crab Nebula is revealed to be in motion, still expanding from the explosion nearly a millennium ago.”

The supernova remnant was discovered in the mid-18th century, and in the 1950s Edwin Hubble was among several astronomers who noted the close correlation between Chinese astronomical records of a supernova and the position of the Crab Nebula. The discovery that the heart of the Crab contained a pulsar — a rapidly rotating neutron star — that was powering the nebula’s expansion finally aligned modern observations and ancient records.

In its new image, Hubble captured the nebula’s intricate filamentary structure, as well as the considerable outward movement of those filaments over 25 years, at a pace of 3.4 million miles per hour. Hubble is the only telescope with the combination of longevity and resolution capable of capturing these detailed changes.

For better comparison with the new image, Hubble’s 1999 image of the Crab was re-processed. The variation of colors in both of the Hubble images shows a combination of changes in local temperature and density of the gas as well as its chemical composition.

“Even though I’ve worked with Hubble quite a bit, I was still struck by the amount of detailed structure we can see and the increased resolution with the Wide Field Camera 3, as compared to 25 years ago,” Blair said. Wide Field Camera 3 was installed in 2009, the last time Hubble instruments were updated by astronauts.

Blair noted that filaments around the periphery of the nebula appear to have moved more compared to those in the center, and that rather than stretching out over time, they appear to have simply moved outward. This is due to the nature of the Crab as a pulsar wind nebula powered by synchrotron radiation, which is created by the interaction between the pulsar’s magnetic field and the nebula’s material. In other well-known supernova remnants, the expansion is instead driven by shockwaves from the initial explosion, eroding surrounding shells of gas that the dying star previously cast off.

The new, higher-resolution Hubble observations are also providing additional insights into the 3D structure of the Crab Nebula, which can be difficult to determine from a 2D image, Blair said. Shadows of some of the filaments can be seen cast onto the haze of synchrotron radiation in the nebula’s interior.  Counterintuitively, some of the brighter filaments in the latest Hubble images show no shadows, indicating they must be located on the far side of the nebula.

According to Blair, the real value of Hubble’s Crab Nebula observations is still to come. The Hubble data can be paired with recent data from other telescopes that are observing the Crab in different wavelengths of light. NASA’s James Webb Space Telescope released its infrared-light observations of the Crab Nebula in 2024. Comparison of the Hubble image with other contemporary multiwavelength observations will help scientists put together a more complete picture of the supernova’s continuing aftermath, centuries after astronomers first wondered at a new little star twinkling in the sky.

The Hubble Space Telescope has been operating for more than three decades and continues to make ground-breaking discoveries that shape our fundamental understanding of the universe. Hubble is a project of international cooperation between NASA and ESA (European Space Agency). NASA’s Goddard Space Flight Center in Greenbelt, Maryland, manages the telescope and mission operations. Lockheed Martin Space, based in Denver, also supports mission operations at NASA Goddard. The Space Telescope Science Institute in Baltimore, which is operated by the Association of Universities for Research in Astronomy, conducts Hubble science operations for NASA.

2024

1999

20241999

2024

1999

2024 and 1999

Tracking 25 Years of Expansion

2024 and 1999

CurtainToggle2-Up

Image Details

Sliding or toggling between these two Hubble images, captured 25 years apart, reveals changes in the position of the nebula’s filaments relative to more distant background stars. Energy from the rapidly spinning pulsar at the nebula’s core is driving the filaments outward. Some differences between the images likely relate to the change in instruments on Hubble. The 1999 image was taken with Hubble’s Wide Field and Planetary Camera 2 instrument, which NASA astronauts replaced with the Wide Field Camera 3 in 2009 during Hubble’s last servicing mission. Each instrument took several shots to create a mosaic image of the full nebula. Wide Field Camera 3 has a slightly greater range of detection, both in surface area and filters for imaging.

Downloads

Hubble image of the Crab Nebula (2024)

JPEG

(5 MB)

Hubble image of the Crab Nebula (1999)

JPEG

(5 MB)

Related Images & Videos

Crab Nebula (2024)

This 2024 image that NASA’s Hubble Space Telescope captured of the Crab Nebula, paired with its past observations and those of other telescopes, allows astronomers to study how the supernova remnant is expanding and evolving over time.

Crab Nebula (1999)

This newly processed image of the Crab Nebula comes from data originally captured by NASA’s Hubble Space Telescope in 1999 and 2000.

Crab Nebula (2024 Compass Image)

NASA’s Hubble Space Telescope 2024 image of the Crab Nebula, with compass arrows, scale bar, and color key for reference.

Crab Nebula (1999 Compass Image)

NASA’s Hubble Space Telescope 1999 image of the Crab Nebula, with compass arrows, scale bar, and color key for reference.

Crab Nebula Expansion over 25 Years

The Crab Nebula is a dynamic supernova remnant that has been expanding and evolving for nearly one thousand years. Often nebulas and other objects in space appear frozen in a single telescope snapshot, providing stunning detail but no sense of change over time. However, thanks to…

Tour the Crab Nebula

This video highlights details in NASA’s Hubble Space Telescope images of the Crab Nebula. Hubble’s first observation of the full nebula began in 1999, and 25 years later it captured a new portrait. Hubble’s longevity and powerful instruments provide astronomers …

Keep Exploring

Discover More Topics From Hubble

Hubble Space Telescope

Since its 1990 launch, the Hubble Space Telescope has changed our fundamental understanding of the universe.

The Death Throes of Stars

When stars die, they throw off their outer layers, creating the clouds that birth new stars.

Science Behind the Discoveries

Reshaping Our Cosmic View: Hubble Science Highlights