Black hole or newborn stars? SOFIA finds galactic puzzle

Space
Black hole or newborn stars? SOFIA finds galactic puzzle
Artist’s concept of a jet from an active black hole that is perpendicular to the host galaxy (left) compared to a jet that is launching directly into the galaxy (right) illustrated over an image of a spiral galaxy from the Hubble Space Telescope. SOFIA found a strange black hole with jets that are irradiating the host galaxy, called HE 1353-1917. The galaxy has 10 times more ionized carbon than its stars could produce. The gas, illustrated in blue in the right image, is concentrated near the galaxy’s center, which indicates that the intense radiation from the black hole’s jet is the source of the excess gas. This contradicts the long-held assumption that ionized carbon is a good indicator of newborn stars, and forces scientists to re-evaluate the effect black holes have on galaxies. Credit: ESA/Hubble&NASA and NASA/SOFIA/L. Proudfit

Universities Space Research Association (USRA) today announced that scientists on NASA’s Stratospheric Observatory for Infrared Astronomy (SOFIA) found a strange black hole that is changing its galactic surroundings in a way that is usually associated with newborn stars.

Astronomers study how stars form in very distant galaxies by searching for signatures of gas heated by the stars called . But SOFIA discovered that active can also heat this gas. These results contradict the long-held understanding that the energy creating ionized in distant galaxies is from alone. This discovery forces scientists to re-evaluate the effect black holes have on galaxies and the stars inside them.

Black holes are inherently strange, with gravitational forces so strong that nothing, not even light, can escape. As active black holes consume gas and dust, some of that material is instead launched outward as jets of high-energy particles and radiation. Usually these jets are perpendicular to the , but NASA’s Stratospheric Observatory for Infrared Astronomy, found one that is shooting directly into its galaxy.

That jet is heating up gas around the galaxy’s center in a way that’s characteristic of stars being born. This is prompting scientists to reevaluate their ideas about a key gas associated with baby stars, and about how black holes affect their host galaxies generally.

“The black hole’s jet orientation is so peculiar,” said Irina Smirnova-Pinchukova, scientist at the Max Plank Institute for Astronomy in Heidelberg, Germany. “It transforms the surroundings in the same way would, but stars alone could not cause what we observed.”

Stars are born deep inside celestial clouds of dust and gas, a process hidden from our view in visible light. But infrared light, which our eyes cannot see, can penetrate these clouds. SOFIA, for example, uses infrared light to study how stars are born. But even with powerful telescopes, astronomers cannot see details like newborn stars in extremely distant galaxies. Instead, they hunt for signatures of gas that is heated by newborn stars, called ionized carbon. Because ionized carbon is so often found in connection with newborn stars, scientists often assume star formation is occurring when they find the gas in distant galaxies.

But when scientists on SOFIA studied five nearby galaxies with active black holes, they discovered that the one with the lowest rate of star birth contained the most ionized carbon. In fact, there was 10 times more than in other galaxies of similar size and composition. But the star birth rate is so low that it can only produce 25% of the gas they detected. In other words, newborn stars alone could not explain the abundance of ionized carbon. There must be some other explanation for this important chemical signature.

The team used SOFIA’s instrument called the Field Imaging Far-Infrared Line Spectrometer, or FIFI-LS, to closely examine the galaxy, HE 1353-1917. USRA’s Randolph Kline supported the observing preparation and execution, assisting the scientists who found that the black hole’s jet is shooting radiation directly into the galaxy, rather than into the space surrounding it. Most of the ionized carbon is concentrated near the galaxy’s active black hole, indicating that the mysterious source of the gas is the intense radiation the black hole’s jet generates.

This contradicts the long-held assumption that ionized carbon is primarily a signature of newborn stars. The results are published in the journal Astronomy and Astrophysics.

“Without numerous observations of nearby galaxies, we might not find such exceptional cases where a black hole is a source of ionized carbon,” said Smirnova-Pinchukova. “This gas is one of the most important tools we have for studying extremely distant galaxies that cannot be seen in great detail.”

Information from nearby galaxies, such as how black holes can create ionized carbon and affect a galaxy’s subsequent evolution, are crucial for understanding the data from other observatories including the Atacama Large Millimeter/submillimeter Array, or ALMA observatory, in Chile. Radio telescopes like ALMA study some of the most distant and faint galaxies, which are often so far away that even powerful telescopes can only detect them as a point of light. That light is full of information, but details about nearby gathered by SOFIA are required to interpret data from the most distant regions of the universe. Now scientists know that high levels of ionized carbon in a may indicate not only that a lot of are being born, but also that a black hole’s jet may be responsible for the same kinds of chemical signatures.


Explore further

Black hole nurtures baby stars a million light years away


More information:
I. Smirnova-Pinchukova et al. The Close AGN Reference Survey (CARS), Astronomy & Astrophysics (2019). DOI: 10.1051/0004-6361/201935577

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Black hole or newborn stars? SOFIA finds galactic puzzle (2019, December 2)
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