How did supermassive black holes form in the early epochs of the universe? More importantly, how did they have enough time to grow as large as they did? The answer requires a very different universe. And back then, conditions were much different than they are now. There was a lot of gas, little dust, no stars, and a plethora of dark matter. Astronomers have spent decades observing early quasars, massive active galaxies powered by huge black holes feeding on surrounding gas. But these galaxies are seen so early in the universe’s history, one starts to wonder how a black hole finds sufficient...
If you actually had the ability to see X-Rays, the world around you would look pretty boring. Actually it would be invisible, since nothing around you gives off X-rays. You might be able to see an imaging device if you live or work near a medical office, but that’s about it. If you looked at the night sky, you would see many interesting sources of X-Ray light, mostly from active black holes in our own galaxy and beyond. Recently a high-resolution scan of the Andromeda Galaxy revealed a plethora of sources, showing where black holes and neutron stars are feeding...
I’ve been saving this one for a few months, specifically for my Halloween post! This was such an interesting story, it was hard for me to pass it up before. There are ghosts in these distant galaxies! Look at the images above, and see the ghostly green figures. They are ionized Oxygen, helium, nitrogen, sulphur, and neon that has absorbed high energy radiation and slowly re-emitted it over thousands of years. The photoionized gas clouds in the images are tens of thousands of light years outside their host galaxies, so where did this high energy radiation come from? The answer, is...
New science has come forward from a team of astronomers who, earlier this year, discovered a pair of black holes in a close orbit, heading toward a cataclysmic merger. The new results suggest that this incredibly powerful collision will occur much sooner than previously thought, as little as 100,000 years from now (A blip on the radar of astronomical timescales). By precisely calculating the individual and relative masses of the black holes, the team was able to predict how the merger would take place, giving a time line for the collision. The astronomers, from Columbia University, saw bright flashes of light...
If you ask someone what the craziest, most powerful, energetic, and enigmatic thing in the universe is, chances are they will say a black hole. After all, we know so little about them, we have never directly seen one, and we can see their influence across space and time. But there is apparently another notch on the crazy powerful cosmic object front. Like turning the volume knob to eleven, a binary system of supermassive black holes has been discovered in a nearby quasar. A quasar is an incredibly bright core of a distant galaxy, shining brighter than the entire galaxy...
Welcome to a new series of posts that will characterize 1000 amazing facts about the Universe. There is so much out there that we have yet to learn, and every day, astronomers across the globe are using their research to reveal the deepest secrets of the cosmos. This series will look at the strangest, coolest, most exciting facts that we have discovered in hundreds of years of modern science. Fact #1: The Universe is Far Larger than you Can Possibly Imagine Let’s start with the fastest speed ever travelled by a human being, about 11 Km/s (40,000 Km/h). This is incredibly fast...
I love data visualization. If I didn’t love astronomy and explosions so much, I would probably be in the art form of visualizing data in fascinating ways. Who knows? I may change my life’s work some day. A recent APOD takes the art to a new level. By looking at time sensitive measurements of Gamma Rays from an incredible active galactic nucleus (AGN), we can get an idea of how a gamma ray burst comes at us from so far away, and what the difference is between the usual activity and a true burst of radiation. Each circle represents a...
I presume that you know what a leap year is. A year is the amount of time the Earth takes to orbit the Sun, and is measured as 365 days, or 365 rotations of Earth. It is, in reality, a little bit longer. Each orbit of the Sun takes 365.25 days, or 365 days and six hours. So what do we do with that six hours? We ignore it for 3 years. On the fourth year we add up those extra hours and we get 24 hours, an extra day! So we add in February 29th every four years. This...
The Andromeda Galaxy is the closest large spiral to our own Milky Way, and the only major Galaxy moving toward us. Turns out its on a direct collision course, but we still have 3.5 Billion years to prepare, so its not exactly pressing news. On the plus side, studying Andromeda allows us to infer properties of more distant galaxies, and it gives us a map of what our own Milky Way Galaxy may look like. Astronomers using the Hubble Space Telescope have discovered a giant halo of gas around Andromeda, and the Milky Way may have a similar one. By...
Have you ever heard of an object called ‘Hanny’s Voorwerp?’ It’s a thin wispy ghost-like blob at the edge of a Galaxy. It was discovered by Dutch schoolteacher Hanny van Arkel in 2007 as she was classifying galaxies as part of the Galaxy Zoo project. Since then, astronomers have been studying its origin, as it was the first of a brand new phenomenon in astronomy. This past week, a new data set of wispy trails at the edge of Galaxies have been released as part of a Hubble study by Bill Keel of the University of Alabama, Tuscaloosa. The new Hubble...
