Authors:
Rodriguez, LF; D'Alessio, P; Wilner, DJ; Ho, PTP; Torrelles, JM; Curiel, S; Gomez, Y; Lizano, S; Pedlar, A; Canto, J; Raga, AC
Abstract:
Planet formation is believed to occur in the disks of gas and dust that surround young salar-type stars(1). Most stars, however, form in multiple systems(2-5), where the presence of a close companion could affect the structure of the disk(6-8) and perhaps interfere with planet formation. It has been difficult to investigate this because of the resolution needed Here we report interferometric observations (at a wavelength of 7 mm) of the core of the star-forming region L1551. We have achieved a linear resolution of seven astronomical units (less than the diameter of Jupiter's orbit). The core of L1551 contains two distinct disks, with a separation of 45 AU; these appear to be associated with a binary system. Both disks are spatially resolved, with semi-major axes of about 10 AU, which is about a factor of ten smaller than disks around isolated stars(9-12). The disk masses are of order 0.05 solar masses, which could be enough to form planetary systems like our own.