DYNAMICAL PROPERTIES OF A CENTRIFUGALLY DRIVEN OUTFLOW FROM A DISC NEAR A BLACK-HOLE

The inclination of the field lines at the surface of the disc plays a crucial role on the nature of the magnetically driven flows. For the non-relativistic case, a centrifugally driven outflow of matter from the disc is possible, if the poloidal component of the magnetic field makes an angle of less than a critical 60 degrees with the disc surface (Blandford and Payne 1982). We investigate the dynamical properties of the magnetically driven flows from the disc near a non-rotating black hole and find that the critical angle becomes larger than 60 degrees when the flows start from the region near the black hole.