Stock Photo - The Boomerang Nebula is a young planetary nebula and the coldest object found in the Universe so far The NASA/ESA Hubble Space Telescope image is yet another example of how Hubble´s sharp eye reveals surprising details in celestial objects This NASA/ESA Hubble Space Telescope image shows a young planetary nebula known rather curiously as the Boomerang Nebula It is in the constellation of Centaurus, 5000 light-years from Earth Planetary nebulae form around a bright, central star when it expels gas in the last stages of its life The Boomerang Nebula is one of the Universe´s peculiar places In 1995, using the 15-metre Swedish ESO Submillimetre Telescope in Chile, astronomers Sahai and Nyman revealed that it is the coldest place in the Universe found so far With a temperature of -272C, it is only 1 degree warmer than absolute zero the lowest limit for all temperatures Even the -270C background glow from the Big Bang is warmer than this nebula It is the only object found so far that has a temperature lower than the background radiation Keith Taylor and Mike Scarrott called it the Boomerang Nebula in 1980 after observing it with a large ground-based telescope in Australia Unable to see the detail that only Hubble can reveal, the astronomers saw merely a slight asymmetry in the nebula´s lobes suggesting a curved shape like a boomerang The high-resolution Hubble images indicate that ´the Bow tie Nebula´ would perhaps have been a better name The Hubble telescope took this image in 1998 It shows faint arcs and ghostly filaments embedded within the diffuse gas of the nebula´s smooth ´bow tie´ lobes The diffuse bow-tie shape of this nebula makes it quite different from other observed planetary nebulae, which normally have lobes that look more like ´bubbles´ blown in the gas However, the Boomerang Nebula is so young that it may not have had time to develop these structures Why planetary nebulae have so many different shapes is still a mystery The general bow-tie shape of the Boomerang appears to have been created by a very fierce 500 000 kilometre-per-hour wind blowing ultracold gas away from the dying central star The star has been losing as much as one-thousandth of a solar mass of material per year for 1500 years This is 10-100 times more than in other similar objects The rapid expansion of the nebula has enabled it to become the coldest known region in the Universe The image was exposed for 1000 seconds through a green-yellow filter The light in the image comes from starlight from the central star reflected by dust particles