Boomerang Nebula
The Boomerang Nebula is a bipolar reflection young planetary nebula located approximately 5,000 light-years from Earth in the constellation Centaurus.
Holmberg & Lauberts and Schuster & West in their survey of 1976 or earlier discovered the existence of an object at the location. Before or during 1978 I.S. Glass discovered the object as a nebula with G. Wegner, both of South African Astronomical Observatory, from data of the ESO Quick Blue Survey. Wegner and Glass in their paper of 1979 mentioned a "butterfly" or "bow-tie" like shape. K. N. R. Taylor and S. M. Scarrott made observations July 17, 1979 and named it after the boomerang. Modelling of measurements of outflow of the nebula published 1997 by Sahai and Nyman indicate kelvin less than cosmic microwave background radiation, so it's the coldest natural place currently known in the observed Universe.
The central star is an old star. The max-diametrical temperature of the central star is estimated to be 6000 K or 7000 K.
The Boomerang Nebula is believed to be a star system evolving toward the planetary nebula phase. It continues to form and develop due to the outflow of gas from its core where a star in its late stage life sheds mass and emits starlight, illuminating dust in the nebula. Millimeter scale dust grains obscure portions of the nebula's center, so most escaping visible light is in two opposing lobes forming a distinctive hourglass shape as viewed by space telescope data on Earth. The outflowing gas at about 164 km/s expands rapidly into space; this gas expansion results in the nebula's unusual K.
Using observations from 1994 and 1995 with the 15-metre Swedish-ESO Submillimetre Telescope in Chile, the astronomers Sahai & Nyman concluded carbon monoxide molecules produced after stellar co-absorption in a binary system of the nebula which outflow as a gas wind were less kinetically excited than the local outer space.
Radiation transfer of cmbr into the CO parts of the nebula wind indicated those parts only must have a kelvin temperature state which is uniquely the least of any observed location in nature.
The kinetic energy of the CO outflow is theorized as the product of common-envelope evolution, which was a change in the outer environment of the dual orbital system of the binary system. The KE within the outflow is theorized as an environment forced out from the area of the orbital system of the larger star by the absorption of the lesser sized star into the core of the larger by terminal gravitational attraction. Cooling to sub cmbr temperature is by adiabatic expansion.
A succession of periodic observations from November 2011 ending June 2012 with archived observations from Hubble revealed other features. The nebula's visible double lobe was observed to be surrounded by a larger spherical region of cold gas seen only in sub-millimeter radio wavelengths. The nebula's outer fringes appear to be gradually warming.
As of mid-2017, it is believed that the star at the center of the nebula is a dying red giant.