Three-Dimensional Doppler Images of the Disk-like and Stream-like States of U Coronae Borealis

Abstract

The 3D Radioastronomical Approach to Doppler tomography has been used to study the Hα emission sources in U Coronae Borealis. These 3D tomograms provide greater resolution than the projected 2D version and highlight the jet-like gas flows in the Vz direction transverse to the orbital plane. In this paper, the 3D tomograms are compared at two distinct epochs when U CrB was in the disk-like state (1993 data) and the stream-like state (1994 data). Both states display a prominent emission source, the circumprimary bulge, which is produced when the gas stream strikes the photosphere of the mass-gainer. This source is detected within Vz = 150 km s-1, and demonstrates that the bulge is not confined to the orbital plane although it achieves maximum strength near Vz=0 km s-1. Other emission sources include the stream-star and stream-disk shocks and a Localized Region (LR) where the circling disk material strikes the incoming gas stream. The LR has Vz velocities of 200 to 500 km s-1 in the disk-like state. The disk emission is seen over a range of Vz velocities, and there is evidence that the disk is inclined to the orbital plane or may have two arms. The gas stream flows along its predicted trajectory in the stream-like state, and a comparison with the disk-like state suggests that the gas stream has a higher density than the disk in both states of this binary.