Travel into the Heart of a Cosmic Storm

This shot from the NASA/ESA Hubble Space Telescope shows a maelstrom of glowing gas and dark dust within one of the Milky Way’s satellite galaxies, the Large Magellanic Cloud (LMC). This stormy scene shows a stellar nursery known as N159, an HII region over 150 light-years across. N159 contains many hot young stars. These stars are emitting intense ultraviolet light, which causes nearby hydrogen gas to glow, and torrential stellar winds, which are carving out ridges, arcs, and filaments from the surrounding material. At the heart of this cosmic cloud lies the Papillon Nebula, a butterfly-shaped region of nebulosity. This small, dense object is classified as a High-Excitation Blob, and is thought to be tightly linked to the early stages of massive star formation. N159 is located over 160 000 light-years away. It resides just south of the Tarantula Nebula (heic1402), another massive star-forming complex within the LMC. It was previously imaged by Hubble’s Wide Field Planetary Camera 2, which also resolved the Papillon Nebula for the first time.
Electric-blue wisps of gas and young stars in early stages of star birth startle the senses in this stunning Hubble Space Telescope image. Credits: NASA/Hubble/ESA

Space news (astrophysics: stellar nurseries; HII region N159) – 180,000 light-years from Earth deep within the Large Magellanic Cloud (LMC) –

Nearly 200 000 light-years from Earth, the Large Magellanic Cloud, a satellite galaxy of the Milky Way, floats in space, in a long and slow dance around our galaxy. As the Milky Way’s gravity gently tugs on its neighbour’s gas clouds, they collapse to form new stars. In turn, these light up the gas clouds in a kaleidoscope of colours, visible in this image from the NASA/ESA Hubble Space Telescope.
Nearly 200 000 light-years from Earth, the Large Magellanic Cloud, a satellite galaxy of the Milky Way, floats in space, in a long and slow dance around our galaxy. As the Milky Way’s gravity gently tugs on its neighbour’s gas clouds, they collapse to form new stars. In turn, these light up the gas clouds in a kaleidoscope of colours, visible in this image from the NASA/ESA Hubble Space Telescope.

The stunning Hubble Space Telescope image seen above shows the heart of a cosmic maelstrom, glowing gas, and dark dust deep within the Large Magellanic Cloud (LMC), one of many satellite galaxies of the Milky Way. This stormy region of space contains stellar nursery N159, an HII region over 150 light-years across with many hot young suns emitting intense ultraviolet radiation. Ultraviolet light causing nearby hydrogen gas to glow and torrential stellar winds carving ridges, arcs, and filaments out of surrounding gas and dust. 

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The Papillon Nebula is seen in the inset image in  the top right of the main image of the Large Magellanic Cloud. Credit: M. Heydari-Malayeri(Paris Observatory) et al, WFPC2, HST, ESA, NASA

Early stages of star birth

Near the heart of this cosmic maelstrom lies the butterfly-shaped Papillon Nebula, a small, dense stellar object astronomers refer to as a High-Excitation Blob, they have linked to the early stages of the formation of a massive star. This region of space was first detected using Hubble Space Telescope’s Wide Field Planetary Camera 2 (WFPC2).

Image Credit & Copyright: Processing - Robert Gendler, Roberto Colombari Data - Hubble Tarantula Treasury, European Southern Observatory
The Tarantula Nebula Image Credit & Copyright: Processing – Robert Gendler, Roberto Colombari Data – Hubble Tarantula Treasury, European Southern Observatory

Nebula N159’s just south of the Tarantula Nebula (heic 1402), a star-forming region also imaged by Hubble’s WFPC2. Hidden within this region of space astronomers found several massive stars they’re currently studying looking for clues to the growth and evolution of the most massive stars in the galaxy. The image seen here was taken using the Hubble Space Telescope’s Advanced Camera for Surveys. 

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Traveling Across the Tarantula Nebula on a Runaway Star

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This image of the 30 Doradus nebula, a rambunctious stellar nursery, and the enlarged inset photo show a heavyweight star that may have been kicked out of its home by a pair of heftier siblings. In the inset image at right, an arrow points to the stellar runaway and a dashed arrow to its presumed direction of motion. The image was taken by the Wide Field and Planetary Camera 2 (WFPC2) aboard NASA’s Hubble Space Telescope. The heavyweight star, called 30 Dor #016, is 90 times more massive than the Sun and is traveling at more than 250,000 miles an hour. In the wider view of 30 Doradus, the homeless star, located on the outskirts of the nebula, is centered within a white box. The box shows Hubble’s field of view. The image was taken by the European Southern Observatory’s (ESO) Wide Field Imager at the 2.2-meter telescope on La Silla, Chile. Credits: NASA/ESA/Hubble

Traveling at 250,000 mph would be a windy, visually spectacular ride to hell 

Space news (Astrophysics: stellar nursery dynamics; runaway stars) – 170,000 light-years from Earth, near the edge of the Tarantula Nebula – 

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Hubble/WFPC2 and ESO/2.2-m Composite Image of 30 Dor Runaway Star. Credits: NASA/ESA/Hubble

If you want to travel through the galaxy, hitch a ride on a runaway star like the one astronomers have been tracking since it came screaming out of 30 Doradus (Tarantula Nebula) in 2006. Data collected by the newly installed Cosmic Origins Spectrograph on the Hubble Space Telescope suggests a massive star, as much as 90 times the mass of Sol, was knocked out of the nebula by gravitational interactions with even more massive suns. Traveling at around 250,000 mph, voyaging through the cosmos on this runaway star would be an adventure to write home about.  

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ESO 2.2-m WFI Image of the Tarantula Nebula. Credits: NASA/ESA/Hubble

The trail leads back to a star-forming region deep within the Tarantula Nebula called R136, where over 2,400 massive stars near the center of this huge nebula produce an intense wind of radiation. Astronomers think interactions with some of the 100 plus solar mass stars detected in this stellar nursery resulted in this runaway star being flung over 375 light-years by its bigger siblings.  

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Massive Star is Ejected from a Young Star Cluster. Credits: NASA/ESA/Hubble

These results are of great interest because such dynamical processes in very dense, massive clusters have been predicted theoretically for some time, but this is the first direct observation of the process in such a region,” says Nolan Walborn of the Space Telescope Science Institute in Baltimore and a member of the COS team that observed the misfit star. “Less massive runaway stars from the much smaller Orion Nebula Cluster were first found over half a century ago, but this is the first potential confirmation of more recent predictions applying to the most massive young clusters.”   

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Nolan Walborn. Credits: NASA/ESA/Hubble Heritage Site

Astrophysicists studying the runaway star and the region in the Tarantula region where the trail ended believe it’s likely a massive, blue-white sun at least ten times hotter than Sol and only a few million years old. It’s far from home and in a region of space where no clusters with similar stars are found. It’s also left an egg-shaped cavity in its wake with glowing edges pointing in the direction of the center of 30 Doradus and the region of R136. A flaming trail you would see behind the star as you traveled across the cosmos and onto eternity.  

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Compass/Scale Image of 30 Dor Runaway Star. Credits: NASA/ESA/Hubble

 “It is generally accepted, however, that R136 is sufficiently young, 1 million to 2 million years old, that the cluster’s most massive stars have not yet exploded as supernovae,” says COS team member Danny Lennon of the Space Telescope Science Institute. “This implies that the star must have been ejected through dynamical interaction.” 

This runway star continues to scream across the cosmos, nearing the outskirts of 30 Doradus a star-forming region in the Large Magellanic Cloud, it will one day end its existence in a titanic explosion or supernova, and possibly leave behind one of the most mysterious and enigmatic objects discovered during the human journey to the beginning of space and time, a black hole.  

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Hubble Observations of Massive Stars in the Large Magellanic Cloud. Credits: NASA/ESA/Hubble

Imagine riding this runaway star until it contracted into a black hole and left our universe altogether. Where would we travel? To a random location in spacetime? To another reality or universe? The possibilities abound and far exceed our ability to imagine such a reality. Scientists tell us such a journey wouldn’t be possible, but they’re just stumbling around in the dark looking for ideas to grasp. For handholds on the dark cliff we climb as we search for answers to the mysteries before us.  

What’s next?

Astronomers continue to study the Tarantula Nebula and the star-forming region R136 looking for signs of impending supernovae among the zoo of supermassive stars within. They also continue to track this runaway star and two other blue hot, supermassive stars outside the boundary of 30 Doradus that appear to have also been ejected from their host systems. We’ll update you with any news on it, and other runaway stars as it continues to scream across the cosmos. 

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