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Heliospheric Termination Shock Motion Due to Fluctuations in the Solar Wind Upstream Conditions: Spherically Symmetric ModelLarge-scale fluctuations in the solar wind plasma upstream of the heliospheric termination shock (TS) will cause inward and outward motions of the shock. Using numerical techniques, we extend an earlier strictly one-dimensional (planar) analytic gas dynamic model to spherical symmetry to investigate the features of global behavior of shock motion. Our starting point is to establish a steady numerical solution of the gasdynamic equations describing the interaction between the solar wind and the interstellar medium. We then introduce disturbances of the solar wind dynamic pressure at an inner boundary, and follow the subsequent evolution of the system, especially the motion of the termination shock. Our model solves spherically symmetric gasdynamic equations as an initial-boundary value problem. The equations in conservative form are solved using a fully implicit Total Variation Diminishing (TVD) upwind scheme with Roe-type Riemann solver. Boundary conditions are given by the solar wind parameters on an inner spherical boundary, where they are allowed to vary with time for unsteady calculations, and by a constant pressure (roughly simulating the effect of the local interstellar medium) on an outer boundary. We find that immediately after the interaction, the shock moves with speeds given by the earlier analogous analytic models. However, as the termination shock propagates it begins to slow down, seeking a new equilibrium position. In addition, the disturbance transmitted through the TS, either a shock or rarefaction wave, will encounter the heliopause boundary and be reflected back. The reflected signal will encounter the TS, causing it to oscillate. The phenomenon may be repeated for a number of reflections, resulting in a "ringing" of the outer heliosphere.
Document ID
20020037750
Acquisition Source
Ames Research Center
Document Type
Preprint (Draft being sent to journal)
Authors
Ratkiewicz, R.
(NASA Ames Research Center Moffett Field, CA United States)
Barnes, A.
(NASA Ames Research Center Moffett Field, CA United States)
Molvik, G. A.
(NAI Woodbridge, CA United States)
Spreiter, J. R.
(Stanford Univ. Stanford, CA United States)
Stahara, S. S.
(RMA Aerospace, Inc. Mountain View, CA United States)
Cuzzi, Jeffery N.
Date Acquired
August 20, 2013
Publication Date
January 1, 1995
Subject Category
Solar Physics
Funding Number(s)
PROJECT: RTOP 370-24-42-10
Distribution Limits
Public
Copyright
Work of the US Gov. Public Use Permitted.

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