2M1101AB


The brown dwarf binary 2M1101AB is about 600 light-years distant in the constellation Chamaeleon. The wide binary pair is separated by about 240 astronomical units. The system was the first discovery of a brown dwarf binary with a separation greater than 20 au. The discovery gave fundamental insights into the formation of brown dwarfs. Previously it was thought that such wide binary brown dwarfs are not formed or at least are disrupted at ages of 1-10 Myrs. Together with other wide binaries, such as Oph 162225-240515 or UScoCTIO 108, the existence of this system was inconsistent with the ejection hypothesis, a proposed hypothesis in which brown dwarfs form in a multiple system, but are ejected before they gain enough mass to burn hydrogen. The ejection hypothesis predicted a maximum separation of 10 au for brown dwarf binaries.
The system was discovered by Kevin Luhman in 2004 during observations of candidate young brown dwarfs in Chamaeleon I, using the Magellan I telescope.
The primary 2M1101A has a spectral type of M7.25 ± 0.25, with a mass of about 52 and a temperature of 2838 K. The secondary 2M1101B has a spectral type of M8.25 ± 0.25, with a mass of about 26 and a temperature of 2632 K. Based on spectral features, such as sodium and potassium absorption lines it was concluded that both brown dwarfs are young and part of Chamaeleon I. The brown dwarfs in 2M1101AB belong to the youngest substellar members of Chamaeleon I with an approximately age of 1 million years. Measurements by ESA's Gaia satellite show a similar parallax and proper motion for both brown dwarfs. The system has a relative low binding energy of ergs.
The system was detected in x-rays with Chandra and XMM-Newton. While XMM-Newton could not resolve the binary it detected the primary. Chandra resolved the binary and detected the secondary in the system. These apparently contradictory results were interpreted as strong variability of the x-ray emissions by this system.