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NGC 253: Chandra Determines What Makes a Galaxy's Wind Blow
NGC 253
Visual Description:

  • NGC 253 shows the effect of powerful winds being launched in opposite directions from the center of the galaxy.

  • Although it is a spiral like our Milky Way galaxy, NGC 253 is forming stars at a higher rate.

  • These young massive stars and their supernova explosions propel the winds that play an important role in the lifecycle of stars and the galaxy.

  • Researchers used NASA's Chandra X-ray Observatory (inset) and other telescopes to study NGC 253.

On Earth, wind can transport particles of dust and debris across the planet, with sand from the Sahara ending up in the Caribbean or volcanic ash from Iceland being deposited in Greenland. Wind can also have a big impact on the ecology and environment of a galaxy, just like on Earth, but on much larger and more dramatic scales.

A new study using NASA's Chandra X-ray Observatory shows the effects of powerful winds launched from the center of a nearby galaxy, NGC 253, located 11.4 million light-years from Earth. This galactic wind is composed of gas with temperatures of millions of degrees that glows in X-rays. An amount of hot gas equivalent to about two million Earth masses blows away from the galaxy's center every year.

NGC 253 is a spiral galaxy, making it similar to our Milky Way. However, stars are forming in NGC 253 about two to three times more quickly than in our home galaxy. Some of these young stars are massive and generate a wind by ferociously blowing gas from their surfaces. Even more powerful winds are unleashed when, later in their relatively short lives, these stars explode as supernovae, and hurl waves of material out into space.

NGC 253 gives astronomers a keyhole through which to study this important phase in the stellar life cycle. The material that the young stars send out into intergalactic space across hundreds of light-years is enriched with elements forged in their interior. These elements, which include many responsible for life on Earth, are folded into the next generations of stars and planets.

A new composite image of NGC 253 in the inset includes Chandra data (pink and white) showing that these winds blow in two opposite directions away from the center of the galaxy, to the upper right and lower left. Also shown in this image is visible light data (cyan) and emission from hydrogen (orange), both from a 0.9 meter telescope at Kitt Peak Observatory, and infrared data from NASA's Spitzer Space Telescope (red). From Earth's vantage point, NGC 253 appears nearly edge-on, as seen in the wider image in the graphic, which shows an optical image from the European Southern Observatory's La Silla Observatory in Chile.

A close-up view of the center of galaxy NGC 253.
Close-Up View of NGC 253 (Credit: X-ray: NASA/CXC/The Ohio State Univ/S. Lopez et al.; Optical: ESO/La Silla Observatory

A team led by Sebastian Lopez of The Ohio State University in Columbus, Ohio, used deep Chandra observations, taken over four days, to study the properties of the wind. They found that the densities and temperatures of the gas in the wind are the highest in regions less than about 800 light-years from the center of the galaxy — and then decrease with distance farther away.

These results disagree with an early model where the winds from so-called starburst galaxies like NGC 253 are spherical. Instead, recent theoretical work predicts that a more focused wind should be formed by a ring of “super star clusters” located near the center of NGC 253. Super star clusters contain large numbers of young, massive stars.

The focused nature of the wind observed by Lopez and his team therefore supports the idea that the super star clusters are a major source of the wind. However, there is not complete agreement between theory and observations, suggesting there is physics missing from the theory.

A hint about what is missing comes from the team's observation that the wind cools rapidly as it moves away from the center of the galaxy. This suggests that the wind is plowing up cooler gas, causing the wind to cool and slow down. Such a 'wind plow' effect might be the extra physics required to produce better agreement between theory and observations.

Lopez and his colleagues also studied the composition of the wind, including how elements like oxygen, neon, magnesium, silicon, sulfur, and iron are scattered across the structure. They found that these elements become much more diluted farther away from the center of the galaxy. Astronomers did not see such a rapid decrease in the amounts of these elements in the wind from another well-studied galaxy undergoing a burst of star formation, M82.

Astronomers will need future observations of other galaxies with winds to understand whether this difference is related to the general properties of the galaxies, such as the total mass of the stars they contain.

A paper describing these results was published in The Astrophysical Journal and is available online here. The authors are Sebastian Lopez, Laura Lopez, Dustin Nguyen, Todd Thompson, and Smita Mathur (The Ohio State University); Alberto Bolatto (University of Maryland, College Park); Neven Vulic (Eureka Scientific); and Amy Sardone (Ohio State).

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

 

Visual Description:

This release features an optical image of the spiral galaxy NGC 253, and a separate composite closeup of the galaxy's bright center. In both images, the galaxy is set against the blackness of space, which is dotted with specks of light.

From a distance, spiral galaxies appear round and flat, like disks. Here, NGC 253's flat edge is shown, not its round face. In the primary image, the galaxy resembles the edge of a dinner plate made of gold and silver clouds, tilted diagonally from our upper left to our lower right. The galaxy appears bright and dense near the center, and thinner near the veiny outer rim. Tiny specks of neon pink appear throughout the golden core and silver edges.

A closeup of the galaxy's center is presented in a separate, composite image. In this composite rendering, the heart of the galaxy is shown in a variety of colors. At the center is a misty, neon pink blob with a brilliant white core. This is a galactic wind of extremely hot gas, detected by Chandra's X-ray Observatory. Surrounding the misty neon pink blob is a cyan, or greenish-blue, swirl, and mottled burnt orange and red clouds. The swirling cyan represents visible light data and the burnt orange represents hydrogen emissions, both from the Kitt Peak National Observatory. The red represents infrared data from NASA's Spitzer Space Telescope.

This composite closeup shows hot winds blowing in opposite directions away from the center of the galaxy. These powerful winds are spreading stellar material to the galaxy's next generation of stars and planets.

 

Fast Facts for (NGC 253):
Credit  X-ray: NASA/CXC/The Ohio State Univ/S. Lopez et al.; H-alpha and Optical: NSF/NOIRLab/AURA/KPNO/CTIO; Infrared: NASA/JPL-Caltech/Spitzer/D. Dale et al; Full Field Optical: ESO/La Silla Observatory.
Release Date  March 29, 2023
Scale  Optical image is about 30.0 arcmin (99,500 light-years) across; X-ray inset is about 4.1 arcmin (14,000 light-years) across.
Category  Normal Galaxies & Starburst Galaxies
Coordinates (J2000)  RA 00h 47m 33.10s | Dec -25° 17' 18"
Constellation  Sculptor
Observation Dates  7 pointings from Dec 27, 1999 to Aug 15, 2018
Observation Time  97 hours 28 minutes (4 days 1 hour 28 minutes)
Obs. ID  790, 969, 3931, 13830, 13831, 13832, 20343
Instrument  ACIS
References Lopez,S. et al., 2023, ApJ, 942, 108; arXiv:2209.09260
Color Code  X-ray: pink and white; H-alpha: orange; Infrared: red; Optical: cyan
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X-ray
Distance Estimate  About 11.4 million light-years
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