Black holes form when a massive star runs out of fuel. Gravity causes the core to collapse down to an object so dense that light itself can not escape. In the Milky Way galaxy, there are expected to be over 100 Million black holes, though of course we can’t see them. The one we can see is the supermassive black hole Sag A*, lying deep within the core of the galaxy. But how did Sag A* form? Was it from the merger of many smaller black holes? Or is there some other process forming the most enigmatic objects in the...
As I’ve said before, the most powerful, most energetic, most intense processes happen in the center. The gravitational center of the Earth, the Sun, and the galaxy are all places where temperature, pressure, and interactions of matter and energy are pushed to their limits. When you look up to the sky it’s easy to see the Milky Way (unless you live in an urban center). Do you ever wonder where the middle of it is? Where that supermassive black hole lies? Astronomers know where it is, but you need infrared cameras to see it past the thick dust that blocks...
The gravitational center of most objects and clusters in the universe are the place where the most massive and high energy interactions take place. For the solar system, the Sun’s core is hot and energetic. For star clusters, central regions host the most massive and brightest stars. For galaxy clusters, the most massive galaxies in the universe are seen in the center. And for individual galaxies, the Milky Way included, the core is where the fun happens. In the core of our galaxy, there are many massive and powerful objects, not limited to a supermassive star cluster, pulsars, supernova remnants,...
The Milky Way is a decently big Galaxy. At 100,000 light years across, it is a full size barred spiral galaxy and distinctly different from what we would call ‘dwarf galaxies.’ But there are much larger galaxies in the universe. Most reside near the centre of a massive galaxy cluster and are the result of Billions of years of mergers and collisions. But some appear large because of their incredibly powerful release of energy. A new Galaxy discovered in the early universe by a team of astronomers from the National Centre for Radio Astrophysics is an incredible 4 million light years...
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...
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...
Lurking in the depths of a galaxy, hidden from human eyes, lie millions of monsters. They could swallow you up in an instant, sealing you off from the outside world and devouring you atom by atom. This sounds like your typical Hollywood monster movie, but with millions of black holes hidden throughout the galaxy, its more real than you might think. Supermassive black holes, the largest ones that reside at the centers of galaxies, are much easier to see. They are devouring gas and dust rapidly, resulting in bright emission across the electromagnetic spectrum, especially in x-rays. For many galaxies,...
A vast number of Galaxies in the Universe have a central black hole that is incredibly massive. The Black Hole at the centre of the Milky Way, dubbed Sag A*, is estimated to have a mass as high as three Million Suns. We generally can’t see black holes, but when they start to pull in matter from surrounding gas and dust clouds, the material forms a disk around the star. This accretion disk can heat up to incredible temperatures and emit X-rays and other high energy light, allowing us to see where the black holes are. Sometimes the light from...