Tuesday, January 24, 2023

Dust is Hiding how Powerful Quasars Really are

In the 1970s, astronomers discovered that the persistent radio source at the center of our galaxy was a supermassive black hole (SMBH). Today, this gravitational behemoth is known as Sagittarius A* and has a mass roughly 4 million times that of the Sun. Since then, surveys have shown that SMBHs reside at the center of most massive galaxies and play a vital role in star formation and galactic evolution. In addition, the way these black holes consume gas and dust causes their respective galaxies to emit a tremendous amount of radiation from their Galactic Centers.

These are what astronomers refer to as Active Galactic Nuclei (AGN), or quasars, which can become so bright that they temporarily outshine all the stars in their disks. In fact, AGNs are the most powerful compact steady sources of energy in the Universe, which is why astronomers are always trying to get a closer look at them. For instance, a new study led by the University of California, Santa Cruz (UCSC) indicates that scientists have substantially underestimated the amount of energy emitted by AGN by not recognizing the extent to which their light is dimmed by dust.

Artist’s impression of a powerful young quasar. Credit: ESO/M. Kornmesser Credit: ESO/M. Kornmesser

The research was led by Dr. Martin Gaskell, a research associate and lecturer at UCSC’s Department of Astronomy and Astrophysics. He was joined by a team of engineers, mathematicians, astronomers, and astrophysicists from Harvey Mudd College, Princeton University, and the University of California Berkeley. For their study, the team examined NGC 5548, a Type I Seyfert galaxy located about 244.6 million light-years away. This galaxy has a bright AGN, resulting from a central SMBH of roughly 65 million Solar masses.

The amount of dust is measured by the way it causes light from the AGN to shift toward the red end of the spectrum. This effect is known as “reddening,” and the amount of reddening corresponds directly to the amount of dimming. Although scientists have long recognized the possibility that dust dims the light from AGNs, the amount was widely considered negligible. The issue stemmed from the fact that astronomers predicted the amount of reddening based on theories regarding the intrinsic, unreddened colors astronomers should be seeing.

According to the results from this latest research, the amount of obscuring dust may be underestimated, much like the overall brightness of AGNs. The team reached this conclusion by studying the reddening effect of dust in the most well-studied AGN (NGC 5548) using seven different indicators. These included a mean AGN reddening curve, a standard reddening curve of the Milky Way, and the Small Magellanic Cloud (SMC) curve. In all cases, they found that the reddening of NGC 5548 was about 14 times greater than what is observed in the solar neighborhood due to the small amount of dust.

As Dr. Gaskell explained in a Royal Astronomical Society press release:

“When there are intervening small particles along our line of sight, this makes things behind them look dimmer. We see this at sunset on any clear day when the sun looks fainter. The good agreement between the different indicators of the amount of reddening was a pleasant surprise. It strongly supports simple theories of emission from active galactic nuclei. Exotic explanations of colors are not needed. This makes life simpler for researchers and is speeding up our understanding of what happens as black holes swallow material.”

Credit: ESA/Hubble, ESO, M. Kornmesser
Artist’s impression of a supermassive black hole and accretion disk. Credit: ESA/Hubble, ESO, M. Kornmesse

These results show that In the ultraviolet wavelength, where most of their energy is radiated, a typical AGN puts out an order of magnitude more energy than previously thought. Another takeaway is that AGNs are very similar, and what was thought to be fundamental differences in brightness and energy output are actually the result of different amounts of dust. This could have drastic implications for our understanding of galactic formation, evolution, and the role played by SMBHs in both.

Further Reading: Royal Astronomical Society, MNRAS

The post Dust is Hiding how Powerful Quasars Really are appeared first on Universe Today.



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