Tonight's Sky
Sun
Sun
Moon
Moon
Mercury
Mercury
Venus
Venus
Mars
Mars
Jupiter
Jupiter
Saturn
Saturn

Tonight's Sky — Change location

OR

Searching...

Tonight's Sky — Select location

Tonight's Sky — Enter coordinates

° '
° '

Gas cloud swings around galactic center black hole

Observations of the heart of our Milky Way have revealed that parts of the infalling gas cloud have already swung past the black hole at our galactic center.
RELATED TOPICS: MILKY WAY | BLACK HOLES
Infrared images of central region of Milky Way
Series of infrared images showing the central region of our Milky Way Galaxy. The gas cloud (indicated by an arrow) is unambiguously detected up to 2012. In the latest images, however, its surface brightness is too low for a firm detection. // MPE
Recent observations from April of the galactic center have revealed that parts of the infalling gas cloud, which was detected in 2011, have already swung past the black hole at the heart of our Milky Way. Due to the tidal force of the gravity monster, the gas cloud has become further stretched, with its front moving now already 300 miles (500 kilometers) per second faster than its tail. This confirms earlier predictions that its orbital motion brings it close to the black hole, and that it will not survive the encounter. With the new detailed observations, the astronomers from the Max Planck Institute for Extraterrestrial Physics (MPE) in Garching, Germany, can now also place new constraints on the origins of the gas cloud, making it increasingly unlikely that it contains a faint star inside from which the cloud might have formed.

In 2011, MPE astronomers detected a gas cloud that is falling toward the black hole at the center of our Milky Way on a near radial orbit. New sensitive data taken in April 2013 with the SINFONI instrument at the European Southern Observatory’s Very Large Telescope have now shown that part of the cloud has already passed its closest approach to the black hole. As the gas swings by the black hole, it reverses its velocity. The emission from this part of the cloud appears not redshifted as does the radiation from the rest of the cloud, but rather blueshifted.

“The ionized gas at the head of the cloud is now stretched over more than 150 light-hours (about 160 billion kilometers [99 billion miles]) at the pericenter of the orbit around the black hole, with the closest approach being about 25 light-hours (or a bit more than 25 billion km [16 billion miles]),” said Stefan Gillessen from MPE, who led the observing team. “The pericenter approach, however, is not a singular event but rather a process that will be stretching over a period of at least one year.”

Previous estimates of the gas cloud orbit had predicted the nominal pericenter passage for later in the year, while the new analysis prefers a date early in 2014 — a difference that is less than the duration of the event. In addition to the new observations, the team also reanalyzed archival data and can now give a better measurement of the cloud’s orbit. The fastest components appear to move with a red-shifted velocity of 1,900 miles (3,000km) per second), while the brightest part of the head moves with about 1,400 miles (2,180km) per second. Further down the orbit, there seems to follow a tail moving much slower with a velocity of only 400 miles (700km) per second but along the same orbit.

“But the most exciting detection is gas emission with a blueshifted velocity of 3,000 km/s along the orbit at a position after pericenter,” said Gillessen. “This means that part of the cloud has already passed the closest approach to the black hole. This could also affect our models of the gas cloud orbit as the brightest part of the head structure might not be comparable any longer to the head in 2012.” Measurements of the radial velocity seem to confirm this suspicion. The increase in velocity seems to be less than expected because the fastest particles have already moved to the other side of the black hole and thus no longer contribute to the velocity of the still redshifted part.

In addition, the new data shed light on the enigmatic origin of the gas cloud. Several options have been proposed, ranging from recent formation due to a collision between stellar winds and the interstellar medium or the possible jet emerging from the galactic center to a faint star that loses increasing amounts of gas. While the compactness of the gas cloud seems surprising for any of these scenarios, the shape of the tidal shear argues against models with a stellar core that would constantly supply new gas. Instead, the orientation of the orbit continues to favor an origin connected to the disk of young massive stars surrounding the black hole farther out.

Numerous observing campaigns have been set up to intensely monitor the region around the galactic center in 2013. This should provide the astronomers with a wealth of data, further constraining the parameters of the gas cloud but also giving interesting information about the surroundings of the black hole. The growing extension and the correspondingly decreasing surface brightness of the gas, however, will make such a detection difficult. The gas cloud is fading as it passes around the black hole.
0

JOIN THE DISCUSSION

Read and share your comments on this article
Comment on this article
Want to leave a comment?
Only registered members of Astronomy.com are allowed to comment on this article. Registration is FREE and only takes a couple minutes.

Login or Register now.
0 comments
ADVERTISEMENT

FREE EMAIL NEWSLETTER

Receive news, sky-event information, observing tips, and more from Astronomy's weekly email newsletter.

ADVERTISEMENT
ADVERTISEMENT
BoxProductcovernov

Click here to receive a FREE e-Guide exclusively from Astronomy magazine.

Find us on Facebook

Loading...