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X-Ray Flares and Mass Outflows Driven by Magnetic Interaction between a Protostar and Its Surrounding Disk

M. HayashiDepartment of Physics, Graduate School of Science and Technology, Chiba University, Inage-ku, Chiba 263, JapanKazunari ShibataNational Astronomical Observatory, Mitaka, Tokyo 181, JapanRyōji MatsumotoDepartment of Physics, Faculty of Science, Chiba University, Inage-ku, Chiba 263, Japan, and Advanced Science Research Center, JAERI, Naka, Japan
1996en
ABI

Аннотация

We propose a model of hard X-ray flares in protostars observed by ASCA satellite. Assuming that the dipole magnetic field of the protostar threads the protostellar disk, we carried out 2.5-dimensional magnetohydrodynamic (MHD) simulations of the disk-star interaction. The closed magnetic loops connecting the central star and the disk are twisted by the rotation of the disk. As the twist accumulates, magnetic loops expand and finally approach to the open field configuration. A current sheet is formed inside the expanding loops. In the presence of resistivity, magnetic reconnection takes place in the current sheet. Outgoing magnetic island and post flare loops are formed as a result of the reconnection. The time scale of this `flare' is the order of the rotation period of the disk. The released magnetic energy partly goes into the thermal energy and heats up the flaring plasma up to 10^8 K. The length of the flaring loop is several times of the radius of the central star, consistent with observations. The speed of the hot plasmoid ejected by the reconnection is 200-400 km s^{-1} when the footpoint of the loop is at 0.03 AU from 1 M_\\odot protostar. The hot plasma outflow can explain the speed and mass flow rate of optical jets. Dense, cold, magnetically accelerated wind (v \\sim 150-250 km s^{-1}) emanates from the surface of the disk along the partially open magnetic field lines threading the disk. This dense, cold wind may correspond to high velocity neutral winds.

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