The Helix Nebula: NGC 7293 in Aquarius | European Southern Observatory

The Helix Nebula: NGC 7293 in Aquarius | European Southern Observatory

The Helix Nebula (also known as The Helix, NGC 7293, or Caldwell 63) is a large planetary nebula (PN) located in the constellation Aquarius. Discovered by Karl Ludwig Harding, probably before 1824, this object is one of the closest to the Earth of all the bright planetary nebulae. The estimated distance is about 215 parsecs or 700 light-years. It is similar in appearance to the Ring Nebula, whose size, age, and physical characteristics are similar to the Dumbbell Nebula, varying only in its relative proximity and the appearance from the equatorial viewing angle. The Helix Nebula has sometimes been referred to as the "Eye of God" in pop culture.

Learn more about the European Southern Observatory 3.6-meter telescope:
https://www.eso.org/public/teles-instr/lasilla/36/

Credit: European Southern Observatory (ESO)
Release Date: Dec. 3, 2009

#NASA #ESO #Astronomy #Space #Science #Nebulae #PlanetaryNebulae #HelixNebula #NGC7293 #Caldwell63 #AquariusConstellation #MilkyWayGalaxy #Cosmos #Universe #ESOTelescope #LaSillaObservatory #Chile #Europe #STEM #Education

Sharpless 249 and The Jellyfish Nebula (IC 443) in Gemini

Sharpless 249 and The Jellyfish Nebula (IC 443) in Gemini

Normally faint and elusive, the Jellyfish Nebula is caught in this alluring telescopic field of view. Floating in the interstellar sea, the nebula is anchored right and left by two bright stars, Mu and Eta Geminorum, at the foot of the celestial twins. The Jellyfish Nebula itself is right of center, seen as a brighter arcing ridge of emission with dangling tentacles. In fact, this cosmic jellyfish is part of bubble-shaped supernova remnant IC 443, the expanding debris cloud from a massive star that exploded. Light from the explosion first reached planet Earth over 30,000 years ago. 

Like its cousin in astrophysical waters the Crab Nebula supernova remnant, the Jellyfish Nebula is known to harbor a neutron star, the ultradense remnant of the collapsed stellar core. An emission nebula cataloged as Sharpless 249 fills the field at the upper left. The Jellyfish Nebula is about 5,000 light-years away. At that distance, this image would be about 300 light-years across.

Image Credit & Copyright: Katelyn Beecroft

Katelyn's website:

https://app.astrobin.com/u/kates.universe#gallery
Release Date: Feb. 27, 2026

#NASA #Astronomy #Space #Science #Stars #Mu #EtaGeminorum #Nebulae #Sharpless249 #TheJellyfishNebula #IC443 #NeutronStar #SupernovaRemnants #GeminiConstellation #MilkyWayGalaxy #Cosmos #Universe #Astrophotography #KatelynBeecroft #Astrophotographer #CitizenScience #STEM #Education #APoD

The Sun: New High Resolution Image | European Space Agency's Solar Orbiter

The Sun: New High Resolution Image | European Space Agency's Solar Orbiter

The High Resolution Imager (HRI) telescope of the Extreme Ultraviolet Imager (EUI) instrument on the European Space Agency's Solar Orbiter ordinarily observes a small sub-field of the Solar atmosphere. However, it can be pointed in a mosaic sequence to build up a large composite image of the entire Sun. This is the result. The full size image at 12544 x 12544 pixels, represents the highest resolution image of the Extreme Ultraviolet (EUV) Sun ever taken, according to the European Space Agency (ESA).

The Solar Orbiter mission is a partnership between the European Space Agency and NASA, designed to observe the Sun and its inner heliosphere. The mission includes ten science instruments, all designed to provide unprecedented data about how our star operates. Solar Orbiter's unique position allows it to observe the Sun from within its perihelion, making it the first spacecraft to do so. Solar Orbiter was launched on February 10, 2020, and is planned to be operational until the end of 2026 with a potential extension until 2030. The spacecraft is equipped with a dedicated heat shield to protect it from the intense solar flux near perihelion (its closest approach to the Sun).

Learn more about ESA's Solar Obiter:
https://www.esa.int/Science_Exploration/Space_Science/Solar_Orbiter

Image Credit: European Space Agency (ESA)
Release Date: Feb. 27, 2026

#NASA #ESA #Space #Astronomy #Science #Sun #Stars #Heliophysics #Astrophysics #SolarSystem #SolarWind #Planets #Earth #SpaceWeather #SolarOrbiter #HRI #EUI #Europe #NASAGoddard #GSFC #UnitedStates #STEM #Education

Introducing SpaceX Starship V3 | Starbase Texas

Introducing SpaceX Starship V3 | Starbase Texas

SpaceX Update: "The first Starship V3 has left the build site to begin prelaunch testing. 

Elon Musk: "Starship V3 SN1 headed for ground tests. I am highly confident that the V3 design will achieve full reusability."

"Starship is essential to both SpaceX’s plans to deploy its next-generation Starship system as well as for NASA, which will use a lunar lander version of Starship for landing astronauts on the Moon during the Artemis III mission through the Human Landing System (HLS) program."

Learn more about Starship:

https://www.spacex.com/vehicles/starship/

Download the Free Starship User Guide (PDF):

https://www.spacex.com/media/starship_users_guide_v1.pdf

Credit: Space Exploration Technologies Corporation (SpaceX)
Image Date: Feb. 26, 2026

#NASA #SpaceX #Space #Earth #Mars #Moon #MoonToMars #ArtemisProgram #ArtemisIII #Starship #StarshipSpacecraft #StarshipV3 #StarshipV3SN1 #ReusableSpacecraft #ElonMusk #Engineering #SpaceTechnology #HumanSpaceflight #CommercialSpace #SpaceExploration #StarbaseTexas #Texas #UnitedStates #STEM #Education

A Surprisingly Active Aurora over Scotland

A Surprisingly Active Aurora over Scotland

Photographer Alan C. Tough: "I wasn't too surprised to see an aurora on Saturday night but I didn't expect it to be so active."

Also known as the northern lights (aurora borealis) or southern lights (aurora australis), auroras are colorful, dynamic, and often visually delicate displays of an intricate dance of particles and magnetism between the Sun and Earth called space weather. When energetic particles from space collide with atoms and molecules in the atmosphere, they can cause the colorful glow that we call auroras.

Learn more about auroras: 
https://science.nasa.gov/sun/auroras/

Scotland is a country that is part of the United Kingdom. To the south-east Scotland has its only land border that is 96 miles (154 km) long and shared with England. The country is surrounded by the Atlantic Ocean to the north and south, the North Sea to the north-east and east, and the Irish Sea to the west.

Image Credit: Alan C. Tough

Location: Elgin, Moray, Scotland, United Kingdom

Alan's website: https://www.flickr.com/photos/7776810@N07/
Date: Feb. 21, 2026

#NASA #Space #Astronomy #Science #Planets #Earth #Aurora #AuroraBorealis #NorthernLights #SolarSystem #Sun #Photography #Photographer #AlanTough #Elgin #Moray #Scotland #UnitedKingdom #UK #STEM #Education

Aurora Streams above Earth’s Atmospheric Glow | International Space Station

Aurora Streams above Earth’s Atmospheric Glow | International Space Station

Expedition 74 Flight Engineer and NASA Astronaut Chris Williams aboard the International Space Station shared this photo. An aurora streams above Earth’s atmospheric glow, blanketing the city lights of Europe and Russia in this photograph taken at approximately 3:30 a.m. local time from the International Space Station as it orbited 263 miles above Central Asia. 

Auroras are colorful, dynamic, and often visually delicate displays of an intricate dance of particles and magnetism between the Sun and Earth called space weather. When energetic particles from space collide with atoms and molecules in the atmosphere, they can cause the colorful glow that we call auroras.

You will notice yellow and green airglow in this image. Airglow occurs when atoms and molecules in the Earth's upper atmosphere, excited by sunlight, emit light to shed their excess energy. Or, it can happen when atoms and molecules that have been ionized by sunlight collide with and capture a free electron. In both cases, they eject a particle of light—called a photon—in order to relax again. The phenomenon is similar to auroras, but where auroras are driven by high-energy particles originating from the solar wind, airglow is energized by ordinary, day-to-day solar radiation. 

Unlike episodic and fleeting auroras, airglow shines constantly throughout Earth’s atmosphere, and the result is a tenuous bubble of light that closely encases our entire planet. 

Follow Expedition 74:
https://blogs.nasa.gov/spacestation/

Expedition 74 Crew
Station Commander: Sergey-Kud Sverchkov (Russia)
Roscosmos (Russia) Flight Engineers: Andrey Fedyaev, Sergei Mikaev

European Space Agency Flight Engineer: Sophie Adenot

NASA Flight Engineers: Jessica Meir, Jack Hathaway, Chris Williams

An international partnership of space agencies provides and operates the elements of the International Space Station (ISS). The principals are the space agencies of the United States, Russia, Europe, Japan, and Canada.

Image Credit: NASA/Chris Williams
Image Date: Feb. 22, 2026 

#NASA #Space #ISS #Science #Earth #Aurora #Airglow #Europe #Astronauts #ChrisWilliams #AstronautPhotography #Cosmonauts #Russia #Россия #Roscosmos #Роскосмос #HumanSpaceflight #InternationalCooperation #Expedition74 #JSC #UnitedStates #STEM #Education

The Cosmic Steering Wheel: Galaxy NGC 1269 in Eridanus | Victor Blanco Telescope

The Cosmic Steering Wheel: Galaxy NGC 1269 in Eridanus | Victor Blanco Telescope

This image of NGC 1269 was taken utilizing the Department of Energy-fabricated Dark Energy Camera (DECam), mounted on the U.S. National Science Foundation (NSF) Víctor M. Blanco 4-meter Telescope at NSF Cerro Tololo Inter-American Observatory, a Program of NSF NOIRLab. 

NGC 1269 is an early-type spiral galaxy located about 33 million light-years from Earth in the constellation Eridanus. A bar, a feature common to many spiral galaxies, slices through the center of the galaxy. Surrounding the galactic core are both inner and outer disks, seeming to form ‘wheels’ around the core. Their presence is thought to be the result of a merger with another galaxy, and the inner disk is also believed to have been further shaped by density waves radiating outward from the galactic center. 

Data for this image came from the archive of the Dark Energy Survey (DES), operated by the DOE and NSF between 2013 and 2019 with the specially-designed DECam. The survey sought to study the nature of the elusive dark matter by imaging hundreds of millions of galaxies. Today, the DECam is available to other scientists for use on the Blanco telescope.

Dark Energy Camera (DECam)

https://noirlab.edu/public/programs/ctio/victor-blanco-4m-telescope/decam/

Learn about the Víctor M. Blanco Telescope:
https://noirlab.edu/science/programs/ctio/telescopes/victor-blanco-4m-telescope

Credit: Dark Energy Survey/DOE/FNAL/DECam/CTIO/NOIRLab/NSF/AURA
Image Processing: R. Colombari & M. Zamani (NSF NOIRLab)
Release Date: Feb. 25, 2026

#NASA #Astronomy #Space #Science #Galaxies #NGC1269 #CosmicSteeringWheel #EridanusConstellation #Cosmos #Universe #VictorBlancoTelescope #DECam #CTIO #CerroTololo #Chile #NOIRLab #NSF #DOE #AURA #UnitedStates #STEM #Education

NASA Artemis II Moon Rocket Rollback to Kennedy's Vehicle Assembly Building

NASA Artemis II Moon Rocket Rollback to Kennedy's Vehicle Assembly Building

NASA’s crawler-transporter 2, carrying NASA’s Artemis II Space Launch System (SLS) rocket with the Orion spacecraft secured to mobile launcher 1, rolled back from Launch Complex 39B to the Vehicle Assembly Building (VAB) at NASA’s Kennedy Space Center in Florida to troubleshoot the flow of helium to the rocket’s upper stage, the interim cryogenic propulsion stage (ICPS). Once complete, the SLS rocket will return to Launch Complex 39B. A revised launch window has not yet been confirmed.

The Artemis II test flight will take Commander Reid Wiseman, Pilot Victor Glover, and Mission Specialist Christina Koch from NASA and Mission Specialist Jeremy Hansen from the Canadian Space Agency (CSA), around the Moon and back to Earth 

Artemis II will pave the way for new U.S. crewed missions on the lunar surface in preparation to send the first astronauts to Mars. 

Read more about NASA's Space Launch System (SLS) rocket: nasa.gov/sls

Learn about United Launch Alliance's ICPS:

https://www.ulalaunch.com/interim-cryogenic-propulsion-stage-(icps)

NASA Artemis II Mission page updates:
https://www.nasa.gov/mission/artemis-ii/

Artemis Program blog: 

https://blogs.nasa.gov/artemis/

Image Credit: NASA/Kim Shiflett/Brandon Hancock/John Kraus/Cory S Huston
Dates: Jan. 28-Feb. 25, 2026

#NASA #Space #Science #Earth #Moon #ArtemisProgram #ArtemisII #OrionSpacecraft #SLS #SLSRocket #ICPS #CrewedMissions #Astronauts #DeepSpace #MoonToMars #Engineering #SpaceTechnology #HumanSpaceflight #SolarSystem #SpaceExploration #KSC #MerrittIsland #Florida #UnitedStates #CSA #Canada #STEM #Education

The Landsat 9 Earth Satellite | NASA's Goddard Space Flight Center

The Landsat 9 Earth Satellite | NASA's Goddard Space Flight Center

For over 50 years, the Landsat program has provided the longest continuous satellite record of Earth's land surface from space. Landsat 9, launched in 2021, is the latest mission in this remarkable legacy—building on decades of Earth observation with upgraded technology, including enhanced radiometric resolution, improved signal-to-noise performance, and polar night thermal imaging. Working in tandem with Landsat 8 to map the entire planet every eight days, Landsat 9's data is being fused with the European Space Agency's Sentinel-2 satellites to enable near-daily global observations, delivering sharper, more detailed observations that help scientists and communities monitor a changing planet.

Learn more about Landsat-9
https://www.usgs.gov/landsat-missions/landsat-9

Credit: NASA's Goddard Space Flight Center Chris Burns (eMITS): Writer/Producer
Ross Walter (SSAI): Visualizer
Duration: 6 minutes
Release Date: Feb. 26, 2026

 

#NASA #Space #Science #Satellites #LandsatProgram #Landsat9 #Landsat #Planets #Earth #Geology #Weather #Meteorology #EarthObservation #RemoteSensing #Environment #NaturalResources #GSFC #USGS #NorthropGrumman #UnitedStates #STEM #Education #HD #Video

Star Trails and Earth City Lights | International Space Station

Star Trails and Earth City Lights | International Space Station

Expedition 74 Flight Engineer and NASA Astronaut Chris Williams aboard the International Space Station shared this photo. Star trails and city lights streak by in this long-duration photograph—exposed for nearly nine-and-a-half minutes—taken from the International Space Station as it orbited 260 miles above the Middle East. In the upper foreground is the Japan Aerospace Exploration Agency's HTV-X1 cargo craft, berthed to the Harmony module’s Earth-facing port, with the Canadarm2 robotic arm attached to a portable data grapple fixture in front. At bottom right is a portion of the Northrop Grumman Cygnus XL cargo craft. 

Follow Expedition 74:
https://blogs.nasa.gov/spacestation/

Expedition 74 Crew
Station Commander: Sergey-Kud Sverchkov (Russia)
Roscosmos (Russia) Flight Engineers: Andrey Fedyaev, Sergei Mikaev

European Space Agency Flight Engineer: Sophie Adenot

NASA Flight Engineers: Jessica Meir, Jack Hathaway, Chris Williams

An international partnership of space agencies provides and operates the elements of the International Space Station (ISS). The principals are the space agencies of the United States, Russia, Europe, Japan, and Canada.

Credit: NASA/Chris Williams
Release Date: Feb. 19, 2026

#NASA #Space #ISS #Science #Earth #MiddleEast #HTV-X1CargoSpacecraft #CygnusXLCargoSpacecraft #Astronauts #ChrisWilliams #AstronautPhotography #Cosmonauts #Russia #Россия #Roscosmos #Роскосмос #HumanSpaceflight #InternationalCooperation #Expedition74 #JSC #UnitedStates #STEM #Education

"Star Light, Star Bright" | International Space Station

"Star Light, Star Bright" | International Space Station

Former Expedition 74 flight engineer and Japan Aerospace Exploration Agency (JAXA) astronaut Kim Yui captured this view of the sun beginning to set above Earth's atmospheric glow (airglow) blanketing a cloudy Atlantic Ocean. The International Space Station was orbiting 260 miles above the Earth off the coast of Florida when this photograph was taken. In the foreground, are a SpaceX Dragon spacecraft (lower left) and a set of the orbital outpost's solar arrays (right). 

You will notice green and yellow airglow in this image. Airglow occurs when atoms and molecules in the Earth's upper atmosphere, excited by sunlight, emit light to shed their excess energy. Or, it can happen when atoms and molecules that have been ionized by sunlight collide with and capture a free electron. In both cases, they eject a particle of light—called a photon—in order to relax again. The phenomenon is similar to auroras, but where auroras are driven by high-energy particles originating from the solar wind, airglow is energized by ordinary, day-to-day solar radiation.

The nursery rhyme "Star Light, Star Bright" is a traditional English-language nursery rhyme of American origin, with documented beginnings tracing back to the mid to late 19th century. It is rooted in the superstition that wishing upon the first star seen at night can lead to a true wish being granted. The rhyme has been recorded in various works since at least 1866 and has spread worldwide, becoming a beloved part of childhood tradition.

"Star light, star bright,
First star I see tonight;
I wish I may, I wish I might
Have the wish I wish tonight."

Follow Expedition 74:
https://blogs.nasa.gov/spacestation/

Expedition 74 Crew
Station Commander: Sergey-Kud Sverchkov (Russia)
Roscosmos (Russia) Flight Engineers: Andrey Fedyaev, Sergei Mikaev

European Space Agency Flight Engineer: Sophie Adenot

NASA Flight Engineers: Jessica Meir, Jack Hathaway, Chris Williams

An international partnership of space agencies provides and operates the elements of the International Space Station (ISS). The principals are the space agencies of the United States, Russia, Europe, Japan, and Canada.

Image Credit: JAXA/Kimiya Yui
Image Date: Jan. 6, 2026

#NASA #Space #ISS #Science #Planets #Earth #Airglow #Stars #Sun #NurseryRhymes #Astronauts #UnitedStates #KimiyaYui #AstronautPhotography #Japan #日本 #JAXA #宇宙航空研究開発機構 #Cosmonauts #Russia #Roscosmos #HumanSpaceflight #SpaceLaboratory #InternationalCooperation #Expedition74 #STEM #Education

Zooming into Gas at The Milky Way's Core | ALMA

Zooming into Gas at The Milky Way's Core | ALMA

This video zooms into the complex molecular gas in the center of the Milky Way—a chaotic and extreme environment where stars do not necessarily form in the same way as they do in the outskirts of our galaxy. It is called the Central Molecular Zone (CMZ). 

The video combines images taken with telescopes at various times and wavelengths. The clip begins with a wide view of the night sky in visible light, and ends with an image taken at millimeter wavelengths with the Atacama Large Millimeter/submillimeter Array (ALMA). Molecules are shown in distinct colors.

Cold molecular gas flows along filaments feeding into clumps of matter that stars can grow from. In the outskirts of the Milky Way we know how this process happens, but within the central region the events are much more extreme. “The CMZ hosts some of the most massive stars known in our galaxy, many of which live fast and die young, ending their lives in powerful supernova explosions, and even hypernovae,” says ACES leader Steve Longmore, a professor of astrophysics at Liverpool John Moores University, UK. With ACES, astronomers hope to better understand how these phenomena influence the birth of stars and whether our theories of star formation hold in extreme environments.

“By studying how stars are born in the CMZ, we can also gain a clearer picture of how galaxies grew and evolved,” Longmore adds. “We believe the region shares many features with galaxies in the early Universe, where stars were forming in chaotic, extreme environments.”

Credit: ESO/L. Calçada/N. Risinger/Digitized Sky Survey 2/ALMA (ESO/NAOJ/NRAO)/S. Longmore et al.
Duration: 51 seconds
Release Date: Feb. 25, 2026

#NASA #Astronomy #Science #Space #CentralMolecularZone #CMZ #MolecularGas #MilkyWayGalaxy #Universe #ESO #ALMA #RadioAstronomy #Europe #UnitedStates #VISTA #InfraredAstronomy #Chile #STEM #Education #HD #Video

The Hidden Chemistry at The Heart of Our Galaxy | ALMA

The Hidden Chemistry at The Heart of Our Galaxy | ALMA

   

This video explores the molecular gas in the center of the Milky Way in unprecedented detail. This new image, obtained with the Atacama Large Millimeter/submillimeter Array (ALMA), shows the distribution of molecules, each displayed in a distinct color. This map will allow astronomers to understand how stars form in the extreme and chaotic environment in the center of our galaxy.

This map is part of ACES—the ALMA CMZ Exploration Survey—a project designed to understand how gas condenses into stars in the extreme and chaotic environment at the heart of our galaxy. The survey has charted the distribution of dozens of molecule types, five are shown here: sulphur monoxide (cyan), silicon monoxide (green), isocyanic acid (red), cyanoacetylene (blue), and carbon monosulphide (magenta).

Cold molecular gas flows along filaments feeding into clumps of matter out of which stars can grow. In the outskirts of the Milky Way we know how this process happens, but within the central region the events are much more extreme. “The CMZ hosts some of the most massive stars known in our galaxy, many of which live fast and die young, ending their lives in powerful supernova explosions, and even hypernovae,” says ACES leader Steve Longmore, a professor of astrophysics at Liverpool John Moores University, UK. With ACES, astronomers hope to better understand how these phenomena influence the birth of stars and whether our theories of star formation hold in extreme environments.

“By studying how stars are born in the CMZ, we can also gain a clearer picture of how galaxies grew and evolved,” Longmore adds. “We believe the region shares many features with galaxies in the early Universe, where stars were forming in chaotic, extreme environments.”

Credit: ALMA (ESO/NAOJ/NRAO)/S. Longmore et al. Background: ESO/D. Minniti et al.
Script: J. C. Muñoz
Editing: M. Martins
Duration: 1 minute
Release Date: Feb. 25, 2026

#NASA #Astronomy #Science #Space #CentralMolecularZone #CMZ #MolecularGas #MilkyWayGalaxy #Universe #ESO #ALMA #RadioAstronomy #Europe #UnitedStates #VISTA #InfraredAstronomy #Chile #STEM #Education #HD #Video

Central Molecular Zone (CMZ) of The Milky Way | ALMA

Central Molecular Zone (CMZ) of The Milky Way | ALMA

This image shows the complex distribution of molecular gas in the Central Molecular Zone (CMZ) of the Milky Way. It was obtained with the Atacama Large Millimeter/submillimeter Array (ALMA). The European Southern Observatory is a partner. This map is as long as three full Moons side-by-side in the sky, and it is in fact the largest ALMA image ever obtained.

This image shows the location of the Central Molecular Zone (CMZ), a region at the core of our galaxy rich in dense and intricate gas clouds. This zone has been mapped with the Atacama Large Millimeter/submillimeter Array (ALMA), as part of the ALMA CMZ Exploration Survey or ACES. The inset is an ACES image where molecules are displayed in a variety of colors. The entire image – the largest ever made with ALMA—is as long as three full Moons side-by-side in the sky.

A wispy cosmic cloud against a dark starry background. The cloud is horizontally elongated. It has an overall pinkish shade, but it is full of intricate filaments in distinct colors.

This image shows the complex distribution of molecular gas in the Central Molecular Zone (CMZ) of the Milky Way. It was obtained with the Atacama Large Millimeter/submillimeter Array (ALMA). The European Southern Observatory is a partner. This map is as long as three full Moons side-by-side in the sky, and it is in fact the largest ALMA image ever obtained.

This map is part of ACES—the ALMA CMZ Exploration Survey—a project designed to understand how gas condenses into stars in the extreme and chaotic environment at the heart of our galaxy. The survey has charted the distribution of dozens of molecule types, five are shown here: sulphur monoxide (cyan), silicon monoxide (green), isocyanic acid (red), cyanoacetylene (blue), and carbon monosulphide (magenta).

The stars in the foreground of this image were observed at infrared wavelengths (Y, Z and J filters) with ESO’s Visible and Infrared Survey Telescope for Astronomy (VISTA) telescope as part of another project. The actual density of stars in the CMZ is much higher than what is shown here, where we have opted to highlight the details in the molecular cloud. Note that the edges of the ALMA map appear sharper because the ALMA observations do not cover the entire rectangular area here.

Cold molecular gas flows along filaments feeding into clumps of matter that stars can grow from. In the outskirts of the Milky Way we know how this process happens, but within the central region the events are much more extreme. “The CMZ hosts some of the most massive stars known in our galaxy, many of which live fast and die young, ending their lives in powerful supernova explosions, and even hypernovae,” says ACES leader Steve Longmore, a professor of astrophysics at Liverpool John Moores University, UK. With ACES, astronomers hope to better understand how these phenomena influence the birth of stars and whether our theories of star formation hold in extreme environments.

“By studying how stars are born in the CMZ, we can also gain a clearer picture of how galaxies grew and evolved,” Longmore adds. “We believe the region shares many features with galaxies in the early Universe, where stars were forming in chaotic, extreme environments.”

Credit: ALMA(ESO/NAOJ/NRAO)/S. Longmore et al. Background: ESO/D. Minniti et al.
Release Date: Feb. 25, 2026

#NASA #Astronomy #Science #Space #CentralMolecularZone #CMZ #MolecularGas #MilkyWayGalaxy #Universe #ESO #ALMA #RadioAstronomy #Europe #UnitedStates #VISTA #InfraredAstronomy #Chile #STEM #Education

A Quick Listen to This Month's "Planetary Parade" | NASA Chandra

A Quick Listen to This Month's "Planetary Parade" | NASA Chandra

In late February 2026, people in the northern hemisphere can look up for a special sight—six planets will all be visible from clear and dark night skies. Since the planets in our Solar System travel around the Sun in same plane, known as the ecliptic, they will sometimes appear bunched together on the sky if their orbits find them on the same side of the Sun at the same time. When this happens, it looks like the planets have roughly formed a line from our vantage point on Earth.

New sonifications from NASA’s Chandra X-ray Observatory help commemorate this latest so-called planetary parade. In the latest sonifications, three of the planets that will be on display—Jupiter, Saturn, and Uranus—can be seen and heard in ways that they cannot from the ground on Earth.

While Chandra is best known for its X-ray insight into black holes and other extreme objects, the telescope has also played an important role in the exploration of our Solar System. The Sun gives off X-rays that travel out into the Solar System and can be reflected by planets, moons, and other bodies. This gives astronomers a unique window into certain physics that cannot be discovered through other kinds of telescopes.

The sonification of Jupiter combines X-ray data from Chandra with an infrared image from NASA’s Hubble Space Telescope. Woodwind sounds reveal Chandra’s X-ray data including emission from the planet’s auroras. More instruments join in to represent the planet’s complex cloud layers. Next, by combining an optical image from NASA’s Cassini mission with X-rays from Chandra, we can experience Saturn like never before. A siren-like sound follows the arc of the rings and tones of synthesizers play as the scan passes the planet itself. Finally, we can hear the ice giant of Uranus through the data collected by Chandra and the W.M. Keck Observatory. The data in this sonification reflect the amount of the different light detected from the planet and the orientation of its ring.

Sonifications are translations of astronomical data into sounds. This process of translation preserves the integrity of the data that arrives on Earth as a series of ones and zeroes (binary code), and shifts it into a form that our brains can process through hearing. Sonifications expand options for people to explore what telescopes discover in space, an example of NASA’s ongoing commitment to share its data as widely as possible.

Video Credit: NASA's Chandra X-ray Observatory
Duration: 46 seconds

Release Date: Feb. 25, 2026

#NASA #ESA #Astronomy #Space #Science #SolarSystem #Planets #Jupiter #Saturn #Uranus  #Cosmos #Universe #NASAChandra #XrayAstronomy #CXC #UnitedStates #Canada #Europe #STEM #Education #Sonifications #Audio #HD #Video

A "Planetary Parade" of Sonifications | NASA's Chandra X-ray Observatory

A "Planetary Parade" of Sonifications | NASA's Chandra X-ray Observatory

In late February 2026, people in the northern hemisphere can look up for a special sight—six planets will all be visible from clear and dark night skies. Since the planets in our Solar System travel around the Sun in same plane, known as the ecliptic, they will sometimes appear bunched together on the sky if their orbits find them on the same side of the Sun at the same time. When this happens, it looks like the planets have roughly formed a line from our vantage point on Earth.

New sonifications from NASA’s Chandra X-ray Observatory help commemorate this latest so-called planetary parade. In the latest sonifications, three of the planets that will be on display—Jupiter, Saturn, and Uranus—can be seen and heard in ways that they cannot from the ground on Earth.

While Chandra is best known for its X-ray insight into black holes and other extreme objects, the telescope has also played an important role in the exploration of our Solar System. The Sun gives off X-rays that travel out into the Solar System and can be reflected by planets, moons, and other bodies. This gives astronomers a unique window into certain physics that cannot be discovered through other kinds of telescopes.

The sonification of Jupiter combines X-ray data from Chandra with an infrared image from NASA’s Hubble Space Telescope. Woodwind sounds reveal Chandra’s X-ray data including emission from the planet’s auroras. More instruments join in to represent the planet’s complex cloud layers. Next, by combining an optical image from NASA’s Cassini mission with X-rays from Chandra, we can experience Saturn like never before. A siren-like sound follows the arc of the rings and tones of synthesizers play as the scan passes the planet itself. Finally, we can hear the ice giant of Uranus through the data collected by Chandra and the W.M. Keck Observatory. The data in this sonification reflect the amount of the different light detected from the planet and the orientation of its ring.

Sonifications are translations of astronomical data into sounds. This process of translation preserves the integrity of the data that arrives on Earth as a series of ones and zeroes (binary code), and shifts it into a form that our brains can process through hearing. Sonifications expand options for people to explore what telescopes discover in space, an example of NASA’s ongoing commitment to share its data as widely as possible.

Video Credit: NASA's Chandra X-ray Observatory
Duration: 3 minutes, 18 seconds

Release Date: Feb. 25, 2026

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