Monday, July 18, 2022

Zooming in on Binary System VFTS 243: A Hot Blue Star & Black Hole | ESO

Zooming in on Binary System VFTS 243: A Hot Blue Star & Black Hole | ESO

In this video, we get to fly out from our home galaxy and into the Large Magellanic Cloud (LMC), a satellite galaxy to the Milky Way. The LMC is the home of one of the brightest known nebulae, the Tarantula Nebula, that was discovered in the mid-18th century. The Tarantula Nebula hosts the binary system VFTS 243, where this video eventually ends. The system might seem like a lone hot blue star, but the other component is in fact invisible to us: a black hole, weighing at least nine times the mass of our Sun, and about 200,000 times smaller than its stellar companion.

A team of international experts, renowned for debunking several black hole discoveries, have found a stellar-mass black hole in the Large Magellanic Cloud. "For the first time, our team got together to report on a black hole discovery, instead of rejecting one," says study leader Tomer Shenar. Moreover, they found that the star that gave rise to the black hole vanished without any sign of a powerful explosion. The discovery was made thanks to six years of observations obtained with the European Southern Observatory’s (ESO’s) Very Large Telescope (VLT).

Stellar-mass black holes are formed when massive stars reach the end of their lives and collapse under their own gravity. In a binary, a system of two stars revolving around each other, this process leaves behind a black hole in orbit with a luminous companion star. The black hole is ‘dormant’ if it does not emit high levels of X-ray radiation, which is how such black holes are typically detected. 

Credit: ESO/Digitized Sky Survey 2/N. Risinger (skysurvey.org)/R. Gendler, ESO/M.-R. Cioni/VISTA Magellanic Cloud survey. Acknowledgment: Cambridge Astronomical Survey Unit. Music: John Dyson

Duration: 50 seconds

Release Date: July 18, 2022


#NASA #ESO #Astronomy #Space #LMC #Galaxy #TarantulaNebula #BinarySystem #VFTS243 #BlackHoles #Cosmos #Universe #VLT #Telescope #Observatory #Chile #Europe #STEM #Education #HD #Video

The Dusty Iris Nebula | Hubble

The Dusty Iris Nebula | Hubble


This close-up of an area in the northwest region of the large Iris Nebula seems to be clogged with cosmic dust. With bright light from the nearby star HD 200775 illuminating it from above, the dust resembles thick mounds of billowing cotton. It is actually made up of tiny particles of solid matter, with sizes from ten to a hundred times smaller than those of the dust grains we find at home. Both background and foreground stars are dotted throughout the image. Researchers studying the object are particularly interested in the region to the left and slightly above centre in the image, where dusty filaments appear redder than is expected.

Technical Info: Data from the following proposal were used to create this image.

"The Exciting Wavelength of Extended Red Emission"

Red: ACS/WFC F850LP

Green: ACS/WFC F625W

Blue: ACS/WFC F475W

North is 169.96° clockwise from up.

North is down, East is right. The field of view is 3.3 arcminutes. The image is a composite of four images obtained through blue, green, near-infrared and H-alpha filters.


Credit: NASA & European Space Agency (ESA)

Processing: Judy Schmidt

Release Date: June 14, 2020


#NASA #Space #Astronomy #Hubble #Nebula #IrisNebula #NGC7023 #Caldwell4 #Dust #Star #HD200775 #Cepheus #Constellation #Science #Cosmos #Universe #Telescope #ESA #Goddard #GSFC #STScI #JudySchmidt #CitizenScience #UnitedStates #STEM #Education

Merging Galaxies Nicknamed "The Angel Wing" | Hubble

Merging Galaxies Nicknamed "The Angel Wing" | Hubble


A close-up look at two merging galaxies in the VV689 system—nicknamed "The Angel Wing" system—in this image from the NASA/European Space Agency (ESA) Hubble Space Telescope. In this view, the focus is placed on the system itself, allowing a closer look at its unique morphology.

Judy Schmidt: "It's easy to see how it became known as the Angel Wing system. With nearly complete bilateral symmetry, it's hard not to see some kind of animal like an angel or bird wings."


Credit: ESA/Hubble & NASA, W. Keel.

Acknowledgement: J. Schmidt

Release Date: April 18, 2022


#NASA #Space #Astronomy #Hubble #Galaxies #Collision #Galactic #VV689 #AngelWing #Leo #Constellation #Science #Cosmos #Universe #Telescope #ESA #Goddard #GSFC #STScI #GalaxyZoo #RadioGalaxyZoo #CitizenScience #UnitedStates #STEM #Education

China's First Space Telescope Under Development | CGTN

China's First Space Telescope Under Development | CGTN

China is developing the prototype of the country's first space telescope Xuntian, or Chinese Survey Space Telescope, also known as the Chinese Space Station Telescope (CSST). It will maintain a similar orbit to China's Space Station (CSS) to allow docking and crew servicing. The 10-ton, bus-sized space telescope has an aperture of 2 meters (6.6 foot) and state-of-the-art detectors. It is expected to have a field of view 300–350 times larger than the 32-year old Hubble Space Telescope. This will allow the telescope to image up to 40 percent of the sky using its 2.5 gigapixel camera over ten years. The space telescope will be launched after the construction of China's Space Station is completed later in 2022.


Credit: China Global Television Network (CGTN)

Duration: 1 minute

Release Date: July 18, 2022


#NASA #Space #Astronomy #China #中国 #Xuntian #CSST #巡天 #巡天号空间望远镜 #SurveyTelescope #Constellations #MilkyWay #Galaxy #Science #Astrophysics #Physics #Cosmos #Universe #SpaceTelescope #Research #International #STEM #Education #HD #Video

SpaceX Starlink Mission: July 17, 2022 | Cape Canaveral Space Force Station

SpaceX Starlink Mission: July 17, 2022 | Cape Canaveral Space Force Station

On Sunday, July 17, 2022, at 10:20 a.m. ET, SpaceX launched 53 Starlink satellites from Space Launch Complex 40 (SLC-40) at Cape Canaveral Space Force Station in Florida.

This was the 13th flight for the Falcon 9 first stage booster supporting this mission, which previously launched Dragon’s first crew demonstration mission, the RADARSAT Constellation Mission, SXM-7, and now 10 Starlink missions.


Credit: Space Exploration Technologies Corp. (SpaceX)

Image Date: July 17, 2022


#NASA #Space #Earth #Orbit #LEO #SpaceX #Falcon9 #Rocket #Satellites #Starlink #Broadband #Internet #ElonMusk #GwynneShotwell #Spaceflight #Technology #Engineering #CommercialSpace #Spaceport #CapeCanaveral #SpaceForce #Florida #UnitedStates #STEM #Education

Galactic Gravitational Lensing | Hubble

Galactic Gravitational Lensing | Hubble

This intriguing observation from the NASA/ESA Hubble Space Telescope shows a gravitationally lensed galaxy with the long-winded identification SGAS J143845+145407. Gravitational lensing has resulted in a mirror image of the galaxy at the center of this image, creating a captivating centerpiece.

Gravitational lensing occurs when a massive celestial body—such as a galaxy cluster—causes a sufficient curvature of spacetime for the path of light around it to be visibly bent, as if by a lens. Appropriately, the body causing the light to curve is called a gravitational lens, and the distorted background object is referred to as being "lensed". Gravitational lensing can result in multiple images of the original galaxy, as seen in this image, or in the background object appearing as a distorted arc or even a ring. Another important consequence of this lensing distortion is magnification, allowing astronomers to observe objects that would otherwise be too far away or too faint to be seen.

Hubble has a special flair for detecting lensed galaxies. The telescope's sensitivity and crystal-clear vision allow it to see faint and distant gravitational lenses that cannot be detected with ground-based telescopes because of the blurring effect of Earth's atmosphere. Hubble was the first telescope to resolve details within lensed images of galaxies, and is capable of imaging both their shape and internal structure.

This particular lensed galaxy is from a set of Hubble observations that take advantage of gravitational lensing to peer inside galaxies in the early Universe. The lensing reveals details of distant galaxies that would otherwise be unobtainable, and this allows astronomers to determine star formation in early galaxies. This in turn gives scientists a better insight into how the overall evolution of galaxies has unfolded.  


Credit: European Space Agency/Hubble & NASA, J. Rigby

Release Date: July 18, 2022


#NASA #Space #Astronomy #Hubble #GravitationalLensing #Galaxy #SGASJ143845145407 #Bootes #Constellation #Science #Astrophysics #Physics #Cosmos #Universe #Telescope #GSFC #STScI #UnitedStates #ESA #Europe #STEM #Education

Sunday, July 17, 2022

NASA SLS Moon Rocket Booster Test Preview | Northrop Grumman

NASA SLS Moon Rocket Booster Test Preview | Northrop Grumman

NASA and Northrop Grumman will perform a full-scale static test of a Space Launch System (SLS) solid rocket booster motor at Northrop Grumman’s Promontory, Utah, test facility July 21, 2022. [This video is an example test from 2015.] Engineers will fire the booster during the demonstration, called the Flight Support Booster 2 test, to evaluate materials and processes to improve boosters for future Artemis missions.

“The current SLS boosters for the first eight Artemis missions are using a robust mix of new avionics and substantial heritage hardware from the Space Shuttle Program,” said Bruce Tiller, SLS Booster Program manager. “This particular ground test will demonstrate some new materials, a completely new steering system, and a new way to ignite the motor. Data from this test will improve our booster design for future missions that take us farther into deep space than ever before.”

For the test, one booster is affixed in a horizontal test stand and fired for approximately two minutes, the same amount of time and at the same power level as it would be fired during launch. On launch day, a pair of solid rocket boosters in a vertical position attached to the core stage of the SLS rocket supply more than 75% of the total thrust for the first two minutes of flight. Northrop Grumman is the lead contractor for the SLS solid rocket boosters.

NASA and Northrop Grumman experts will discuss the Flight Support Booster 2 test during a Facebook Live on the Space Launch System rocket’s Facebook page, as well as on NASA’s Marshall Space Flight Center YouTube channel, beginning at 2:55 p.m. EDT.  During the test, anyone can submit questions on Twitter, Facebook, and YouTube using the hashtag #AskNASA. Julia Khodabandeh, motor team lead for SLS boosters at NASA’s Marshall Space Flight Center in Huntsville, Alabama, and Jessica Rose, chemical engineer for SLS boosters at Northrop Grumman, will answer questions.

NASA and Northrop Grumman will perform a full-scale static test of a Space Launch System (SLS) solid rocket booster motor at Northrop Grumman’s Promontory, Utah, test facility July 21, 2022. Engineers will fire the booster during the demonstration, called the Flight Support Booster 2 test, to evaluate materials and processes to improve boosters for future Artemis missions.

The FSB-2 test builds off the Flight Support Booster-1 test conducted in September 2020 and will demonstrate a newly qualified motor initiation system and qualify a new ablative lining to protect the booster nozzle. This test will also provide information for the development of the next generation booster obsolescence and life extension booster that will support Artemis IX and beyond.

Through Artemis missions, NASA will land the first woman and the first person of color on the Moon, paving the way for a long-term, sustainable lunar presence and serving as a steppingstone for future astronaut missions to Mars.

QM-1 Static Fire Test Preview Video Footage [replay]

On March 11, 2015 NASA and Orbital ATK conducted the first qualification ground test of the five-segment rocket motor that will be used for initial thrust for NASA's heavy-lift Space Launch System, which will enable new missions of exploration across the solar system. This Northrop Grumman/Orbital ATK video gives a quick look at the events of the day. Release Date: April 24, 2015


Story Credit: Northrop Grumman/NASA's Marshall Space Flight Center (MSFC)

Release Date: July 14, 2022


#NASA #ESA #Space #Moon #Artemis #Aerospace #SLS #Boosters #FSB2 #Testing #NorthropGrumman #Rocket #DeepSpace #Astronauts #MoontoMars #Mars #JourneyToMars #Science #Engineering #Technology #Exploration #MSFC #Huntsville #Alabama #UnitedStates #Europe #STEM #Education #HD #Video

NASA & Northrop Grumman Test Fire Future Artemis Moon Rocket Booster Motor

NASA & Northrop Grumman Test Fire Future Artemis Moon Rocket Booster Motor


Image Description: Teams installed the flight support booster for future versions of the SLS rocket’s solid rocket boosters into a test stand in Promontory, Utah. Image Credit: Northrop Grumman. Image Date: June 24, 2022

Teams installed the flight support booster for future versions of the SLS rocket’s solid rocket boosters into a test stand in Promontory, Utah. NASA and Northrop Grumman engineers are preparing to conduct a full-scale static test of the motor at the Northrop Grumman test facility July 21.

NASA and Northrop Grumman will perform a full-scale static test of a  Space Launch System (SLS) solid rocket booster motor at Northrop Grumman’s Promontory, Utah, test facility July 21, 2022. Engineers will fire the booster during the demonstration, called the Flight Support Booster 2 test, to evaluate materials and processes to improve boosters for future Artemis missions.

“The current SLS boosters for the first eight Artemis missions are using a robust mix of new avionics and substantial heritage hardware from the Space Shuttle Program,” said Bruce Tiller, SLS Booster Program manager. “This particular ground test will demonstrate some new materials, a completely new steering system, and a new way to ignite the motor.  Data from this test will improve our booster design for future missions that take us farther into deep space than ever before.”

For the test, one booster is affixed in a horizontal test stand and fired for approximately two minutes, the same amount of time and at the same power level as it would be fired during launch. On launch day, a pair of solid rocket boosters in a vertical position attached to the core stage of the SLS rocket supply more than 75% of the total thrust for the first two minutes of flight. Northrop Grumman is the lead contractor for the SLS solid rocket boosters.

NASA and Northrop Grumman experts will discuss the Flight Support Booster 2 test during a Facebook Live on the Space Launch System rocket’s Facebook page, as well as on NASA’s Marshall Space Flight Center YouTube channel, beginning at 2:55 p.m. EDT.  During the test, anyone can submit questions on Twitter, Facebook, and YouTube using the hashtag #AskNASA. Julia Khodabandeh, motor team lead for SLS boosters at NASA’s Marshall Space Flight Center in Huntsville, Alabama, and Jessica Rose, chemical engineer for SLS boosters at Northrop Grumman, will answer questions.

The FSB-2 test builds off the Flight Support Booster-1 test conducted in September 2020 and will demonstrate a newly qualified motor initiation system and qualify a new ablative lining to protect the booster nozzle. This test will also provide information for the development of the next generation booster obsolescence and life extension booster that will support Artemis IX and beyond.

Through Artemis missions, NASA will land the first woman and the first person of color on the Moon, paving the way for a long-term, sustainable lunar presence and serving as a steppingstone for future astronaut missions to Mars.

Credit: NASA's Marshall Space Flight Center (MSFC)

Release Date: July 14, 2022


#NASA #ESA #Space #Moon #Artemis #Aerospace #SLS #Boosters #FSB2 #Testing #NorthropGrumman #Rocket #DeepSpace #Astronauts #MoontoMars #Mars #JourneyToMars #Science #Engineering #Technology #Exploration #MSFC #Huntsville #Alabama #UnitedStates #Europe #STEM #Education

The Webb Space Telescope’s First Images: Unfold the Universe with Webb Scientists

The Webb Space Telescope’s First Images: Unfold the Universe with Webb Scientists



A special one-hour discussion [replay]. Hear what excites astronomers about the new telescope’s capabilities and hear them answer questions from the public directly!


Credit: Space Telescope Science Institute (STScI)

Duration: 1 hour, 6 minutes

Release Date: July 16, 2022


#NASA #ESA #Astronomy #Space #CarinaNebula #SouthernRingNebula #StephansQuintet #Galaxies #DeepField #Stars #Science #JamesWebb #WebbTelescope #JWST #Telescope #Cosmos #Universe #UnfoldTheUniverse #Europe #CSA #Canada #GSFC #STScI #STEM #Education #HD #Video

Rocket Science in 60 Seconds: What Are the SLS Moon Rocket Boosters? | NASA

Rocket Science in 60 Seconds: What Are the SLS Moon Rocket Boosters? | NASA

Rocket Science in 60 Seconds gives you an inside look at work being done at NASA to explore deep space. The solid rocket boosters for NASA’s Space Launch System (SLS) rocket are the largest, most powerful boosters ever built for flight. In this episode, SLS booster subsystem manager Julia Khodabandeh explains how the two, five-segment solid rocket boosters provide more than 75% of the thrust power during launch and flight for SLS. Please note: This video was originally produced and published in August 2020. 

For more information about SLS, visit:

https://www.nasa.gov/exploration/systems/sls/index.html


Credit: NASA's Marshall Space Flight Center

Duration: 1 minute

Release Date: July 11, 2022


#NASA #ESA #Space #Moon #Artemis #Aerospace #SLS #Boosters #NorthropGrumman #Rocket #DeepSpace #Astronauts #Mars #JourneyToMars #Science #Engineering #Technology #Exploration #MSFC #Huntsville #Alabama #UnitedStates #Europe #STEM #Education #HD #Video

Comparing the Webb Space Telescope & Hubble: The Carina Nebula | NASA

Comparing the Webb Space Telescope & Hubble: The Carina Nebula | NASA


James Webb Space Telescope

Hubble Space Telescope

Note: These images were taken 14 years apart.

This Hubble image shows the edge of the giant gaseous cavity within the star-forming region called NGC 3324. The glowing nebula has been carved out by intense ultraviolet radiation and stellar winds from several hot, young stars. A cluster of extremely massive stars, located well outside this image in the center of the nebula, is responsible for the ionization of the nebula and excavation of the cavity.

The image also reveals dramatic dark towers of cool gas and dust that rise above the glowing wall of gas. The dense gas at the top resists the blistering ultraviolet radiation from the central stars, and creates a tower that points in the direction of the energy flow. The high-energy radiation blazing out from the hot, young stars in NGC 3324 is sculpting the wall of the nebula by slowly eroding it away.

Located in the Southern Hemisphere, NGC 3324 is at the northwest corner of the Carina Nebula (NGC 3372), home of the Keyhole Nebula and the active, outbursting star Eta Carinae. The entire Carina Nebula complex is located at a distance of roughly 7,200 light-years, and lies in the constellation Carina.

This image is a composite of data taken with two of Hubble's science instruments. Data taken with the Advanced Camera for Surveys (ACS) in 2006 isolated light emitted by hydrogen. More recent data, taken in 2008 with the Wide Field Planetary Camera 2 (WFPC2), isolated light emitted by sulfur and oxygen gas. To create a color composite, the data from the sulfur filter are represented by red, from the oxygen filter by blue, and from the hydrogen filter by green.

Webb Credits: NASA/ESA/CSA/STScI
Webb Release Date: July 12, 2022

Hubble Credits: NASA, ESA, and The Hubble Heritage Team (STScI/AURA);
Acknowledgment: N. Smith (University of California, Berkeley)

Hubble Release Date: Oct. 2, 2008


#NASA #ESA #Astronomy #Space #Nebula #CarinaNebula #NGC3324 #Carina #Webb #Science #JamesWebb #WebbTelescope #Hubble #HubbleTelescope #JWST #SpaceTelescope #Cosmos #Universe #UnfoldTheUniverse #Europe #CSA #Canada #GSFC #STScI #STEM #Education

NASA's Mars Curiosity Rover: Views of A Large & Unique Boulder | JPL

NASA's Mars Curiosity Rover: Views of A Large & Unique Boulder | JPL

MSL - sol 3532 - Mastcam
NASA/JPL-Caltech/MSSS/Kevin M. Gill
MSL - sol 3532 - Mastcam
NASA/JPL-Caltech/MSSS/Kevin M. Gill

MSL - sol 3533 - NavRight
NASA/JPL-Caltech/Kevin M. Gill

MSL - sol 3534 - MAHLI

NASA/JPL-Caltech/Kevin M. Gill

MSL - sol 3531 - Left NavCam 
NASA/JPL-Caltech
MSL - sol 3534 - Mastcam
NASA/JPL-Caltech/MSSS/Kevin M. Gill

Curiosity Rover Update for July 13, 2022: Sols 3532-3533

A Rover-Sized Boulder

Written by Lauren Edgar, Planetary Geologist at USGS Astrogeology Science Center

"Curiosity is back on the road, but some interesting boulders caught our attention and led to a short detour. The team was already planning to divert to the southwest to get some imaging of nearby cliffs, but the large boulders that have tumbled down provide a tantalizing glimpse of what’s to come. Boulders like the large one shown in the above Navcam image (now named “Ilha Novo Destino”) can help inform our understanding of the upcoming stratigraphy, so we thought it was worth a trip to this “new island destination” for the weekend."

"But first, there’s plenty of science to be done in our workspace before we get to the boulders. Today’s two-sol plan focused on DRT, MAHLI, and APXS on the bedrock right in front of the rover, including the interesting vein and fracture patterns shown in the foreground of the above Navcam image. Today we planned 3 MAHLI imaging targets and 2 APXS targets to assess the sedimentary textures and composition of bedrock and veins. We also planned ChemCam LIBS and Mastcam multispectral observations to further characterize this outcrop. Mastcam will also be used to document the field of boulders to help plan weekend activities, and ChemCam will acquire a long distance RMI mosaic to characterize the stratigraphy. The ENV theme group planned several environmental monitoring activities to search for dust devils and monitor dust and clouds in the atmosphere. On the second sol, Curiosity will drive to a parking spot right in front of these boulders to prepare for the weekend plan. Can’t wait to see this rover-sized boulder up close!"


Mission Name: Mars Science Laboratory (MSL)

Rover Name: Curiosity

Main Job: To determine if Mars was ever habitable to microbial life. 

Launch: Nov. 6, 2011

Landing Date: Aug. 5, 2012, Gale Crater, Mars


For more information on NASA's Mars missions, visit: mars.nasa.gov

Image Release Dates: July 8-17, 2022

#NASA #Space #Astronomy #Science #Mars #RedPlanet #Planet #Astrobiology #Geology #Boulder #MountSharp #GaleCrater #Curiosity #Rover #Robotics #Technology #Engineering #JPL #Pasadena #California #UnitedStates #JourneyToMars #CitizenScience #STEM #Education

Hubble: Not Yet Imagined

Hubble: Not Yet Imagined

Hubble's launch and deployment in April 1990 marked the most significant advance in astronomy since Galileo's telescope. Thanks to five servicing missions and more than 30 years of operation, our view of the universe and our place within it has never been the same.

For more information, visit https://nasa.gov/hubble 


Credit: NASA's Goddard Space Flight Center 

Grace Weikert: Lead Producer 

Music & Sound

“The Hope That Remains” by Frederik Wiedmann [BMI] via Killer Tracks [BMI] and Universal Production Music.

Soundbite of Carl Sagan

George C. Marshall Space Flight Center’s

Space Telescope: An Observatory in Space

ESA Credit

2.5D Edwin Hubble 

Hubblecast 89 Edwin Hubble

2.5D Nancy Grace Roman 

Hubblecast 113 Nancy Roman — The mother of Hubble

Flythrough #1 FROM Hubblecast 104 Illustrating Hubble’s discoveries

Flythrough #2 FROM Hubblecast 128 30 Years of Science with the Hubble Space

Telescope

Duration: 3 minutes

Release Date: April 27, 2022


#NASA #Space #Astronomy #Hubble #Stars #Galaxies #Nebulae #Science #Astrophysics #Physics #Cosmos #Universe #Telescope #SpaceTelescope #GSFC #STScI #UnitedStates #ESA #Europe #CarlSagan #EdwinHubble #NancyRoman #STEM #Education #History #Visualization #HD #Video

Eta Carinae: The Great Eruption of a Massive Star

Eta Carinae: The Great Eruption of a Massive Star

Eta Carinae, or Eta Car, is famous for a brilliant and unusual outburst, called the "Great Eruption", observed in the 1840s. This visualization presents the story of that event and examines the resulting multiwavelength emissions and three-dimensional structures surrounding Eta Car today.

Massive stars are known to have major outbursts. Eta Car, one of the most massive stars known, expelled about 10% of its mass in the Great Eruption, creating a small nebula, called the Homunculus Nebula, around it. Images taken in different wavelengths of light reveal different structures, each providing more information about the outbursts of Eta Car.

For this visualization, astronomers and artists have used NASA observations to model both the close-up and wide views of this massive and eruptive star. The Hubble Space Telescope and the Chandra X-ray Observatory have observed the nested layers of gas and dust around Eta Car using visible, ultraviolet, and x-ray light, as well as in the Hydrogen Alpha emission line. The Spitzer Space Telescope provides a larger view of the Carina Nebula, along with Eta Car’s dominant position within this star-forming region.

This visualization is presented by the AstroViz Project of NASA’s Universe of Learning. Viewers gain appreciation for how the observations from two centuries ago connect to the resulting structures seen today. Full 360-degree 3D views help to assemble a complete mental model that aids interpretation of the NASA observations. Eta Car serves as a notable example of the outbursts in the dying stages of massive stars.

Credits: J. Olmsted, D. Player, L. Hustak, A. Pagan, J. DePasquale, G. Bacon, F. Summers (STScI), R. Hurt (Caltech/IPAC), NASA, ESA

Images: A. Fujii, J. Morse (BoldlyGo Inst), N. Smith (U Arizona), Hubble SM4 ERO Team, NASA, ESA, STScI, JPL-Caltech, CXC, ESO, NOAO, AURA, NSF

Music: “Interstellar Wanderer”, Joseph DePasquale, CC BY-NC 4.0


Video Credit: Hubble Space Telescope

Release Date: Jan 25, 2022

Duration: 4 minutes, 35 seconds


#NASA #Space #Astronomy #Hubble #Star #AGCarinae #Carina #Constellation #Science #Astrophysics #Physics #Cosmos #Universe #Telescope #GSFC #STScI #UnitedStates #ESA #Europe #STEM #Education #Visualization #3D #HD #Video

Saturday, July 16, 2022

AG Carinae: A Luminous Blue Variable Star | Hubble

AG Carinae: A Luminous Blue Variable Star | Hubble

This visualization starts with a wide-field view of the Carina constellation and zooms down to the Hubble Space Telescope view of the massive star, AG Carinae. One of the brightest stars in our galaxy, AG Carinae undergoes eruptions that have ejected a small nebula of gas and dust.

The sequence then transitions from the 2D Hubble image to a 3D model that shows the structure of the surrounding nebula. The 3D model is based on Hubble images and spectroscopic data of the nebula's motion. The emission from ionized gas glows red, while the dust reflects the light of the star and appears bluish-white.


Credits:

Video: NASA, ESA, Leah Hustak, Frank Summers, Alyssa Pagan, Joseph DePasquale and Greg Bacon (STScI)

Music: "Luminous Beings" by Joseph DePasquale (STScI)  CC BY 4.0

Duration: 1 minute, 26 seconds

Release Date: Apr 23, 2021


#NASA #Space #Astronomy #Hubble #Star #EtaCar #Carina #Carina #Constellation #Science #Astrophysics #Physics #Cosmos #Universe #Telescope #GSFC #STScI #UnitedStates #ESA #Europe #STEM #Education #Visualization #3D #HD #Video

AG Carinae | Hubble

AG Carinae | Hubble

The star AG Carinae is waging a tug-of-war between gravity and radiation to avoid self-destruction. The expanding shell of gas and dust that surrounds the star is about five light-years wide, which equals the distance from here to the nearest star beyond the Sun, Proxima Centauri.

The huge structure was created from one or more giant eruptions about 10,000 years ago. The star's outer layers were blown into space—like a boiling teapot popping off its lid. The expelled material amounts to roughly 10 times our Sun's mass.

These outbursts are the typical life of a rare breed of star called a luminous blue variable, a brief convulsive phase in the short life of an ultra-bright, glamorous star that lives fast and dies young. These stars are among the most massive and brightest stars known. They live for only a few million years, compared to the roughly 10-billion-year lifetime of our Sun. AG Carinae is a few million years old and resides 20,000 light-years away inside our Milky Way galaxy.

Luminous blue variables exhibit a dual personality: They appear to spend years in quiescent bliss and then they erupt in a petulant outburst. These behemoths are stars in the extreme, far different from normal stars like our Sun. In fact, AG Carinae is estimated to be up to 70 times more massive than our Sun and shines with the blinding brilliance of 1 million suns.

"I like studying these kinds of stars because I am fascinated by their instability. They are doing something weird," said Kerstin Weis, a luminous blue variable expert at Ruhr University in Bochum, Germany.

Major outbursts such as the one that produced the nebula occur once or twice during a luminous blue variable's lifetime. A luminous blue variable star only casts off material when it is in danger of self-destruction as a supernova. Because of their massive forms and super-hot temperatures, luminous blue variable stars like AG Carinae are in a constant battle to maintain stability.

It's an arm wrestling contest between radiation pressure from within the star pushing outward and gravity pressing inward. This cosmic match results in the star expanding and contracting. The outward pressure occasionally wins the battle, and the star expands to such an immense size that it blows off its outer layers, like a volcano erupting. But this outburst only happens when the star is on the verge of coming apart. After the star ejects the material, it contracts to its normal size, settles back down, and becomes quiescent for a while.

Like many other luminous blue variables, AG Carinae remains unstable. It has experienced lesser outbursts that have not been as powerful as the one that created the present nebula.

Although AG Carinae is quiescent now, as a super-hot star it continues pouring out searing radiation and powerful stellar wind (streams of charged particles). This outflow continues shaping the ancient nebula, sculpting intricate structures as outflowing gas slams into the slower-moving outer nebula. The wind is traveling at up to 670,000 miles per hour (1 million km/hr), about 10 times faster than the expanding nebula. Over time, the hot wind catches up with the cooler expelled material, plows into it, and pushes it farther away from the star. This "snowplow" effect has cleared a cavity around the star.

The red material is glowing hydrogen gas laced with nitrogen gas. The diffuse red material at upper left pinpoints where the wind has broken through a tenuous region of material and swept it into space.

The most prominent features, highlighted in blue, are filamentary structures shaped like tadpoles and lopsided bubbles. These structures are dust clumps illuminated by the star's reflected light. The tadpole-shaped features, most prominent at left and bottom, are denser dust clumps that have been sculpted by the stellar wind. Hubble's sharp vision reveals these delicate-looking structures in great detail.

The image was taken in visible and ultraviolet light. Ultraviolet light offers a slightly clearer view of the filamentary dust structures that extend all the way down toward the star. Hubble is ideally suited for ultraviolet-light observations because this wavelength range can only be viewed from space.

Massive stars, like AG Carinae, are important to astronomers because of their far-reaching effects on their environment. The largest program in Hubble's history—the Ultraviolet Legacy Library of Young Stars as Essential Standards (ULLYSES)—is studying the ultraviolet light of young stars and the way they shape their surroundings.

Luminous blue variable stars are rare: less than 50 are known among the galaxies in our local group of neighboring galaxies. These stars spend tens of thousands of years in this phase, a blink of an eye in cosmic time. Many are expected to end their lives in titanic supernova blasts, which enrich the universe with heavier elements beyond iron.

Judy Schmidt: "I went with a kind of fiery scheme for the narrowband data, and leaned toward blue for the medium/wideband data. You gotta figure with the central star being a blue supergiant that reflection nebula should be a little blue due to reflected starlight."

Technical details:

Red/orange screen: WFC3/UVIS F657N

Red: WFC3/UVIS F845M

Green: WFC3/UVIS F547M

Blue: WFC3/UVIS F275W

North is up.


Image Credits: NASA, ESA, STScI

Processing: Judy Schmidt

Release Date: May 2, 2021


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