Self-consistent hybrid simulations of the interaction of the heliosphere with the local interstellar medium

Abstract. Three-dimensional time dependent numerical simulations of compressible magnetohydrodynamic fluids describing super-Alfvénic, supersonic and strongly magnetized space and laboratory plasmas show a nonlinear relaxation towards a state of near incompressibility. The latter is characterized essentially by a subsonic turbulent Mach number. This transition is mediated dynamically by disparate spectral energy dissipation rates in compressible magnetosonic and shear Alfvénic modes. Nonlinear cascades lead to super-Alfvénic turbulent motions decaying to a sub-Alfvénic regime that couples weakly with (magneto)acoustic cascades. Consequently, the supersonic plasma motion is transformed into highly subsonic motion and density fluctuations experience a passive convection. This model provides a self-consistent explaination of the ubiquitous nature of incompressible magnetoplasma fluctuations in the solar wind and the interstellar medium.

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Model of the solar wind interaction with the local interstellar medium: Numerical solution of self-consistent problem

Journal of Geophysical Research Atmospheres ◽

10.1029/93ja01171 ◽

1993 ◽

Vol 98 (A9) ◽

pp. 15157 ◽

Cited By ~ 354

Author(s):

V. B. Baranov ◽

Yu. G. Malama

Keyword(s):

Solar Wind ◽

Interstellar Medium ◽

Numerical Solution ◽

Local Interstellar Medium ◽

Solar Wind Interaction ◽

Self Consistent ◽

Consistent Problem

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Self-consistent interaction of neutrals and shocks in the local interstellar medium

10.1063/1.1809536 ◽

2004 ◽

Cited By ~ 1

Author(s):

S. Dastgeer

Keyword(s):

Interstellar Medium ◽

Local Interstellar Medium ◽

Self Consistent

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The Intrinsic Properties of the Local Interstellar Medium

International Astronomical Union Colloquium ◽

10.1017/s0252921100070664 ◽

1997 ◽

Vol 166 ◽

pp. 29-32 ◽

Cited By ~ 1

Author(s):

Olivia Puyoo ◽

Lotfi Ben Jaffel

Keyword(s):

Solar System ◽

Interstellar Medium ◽

Interstellar Cloud ◽

Actual State ◽

The Sun ◽

Local Interstellar Medium ◽

Intrinsic Properties ◽

Hydrogen Density ◽

Self Consistent ◽

Local Cloud

AbstractWe propose a new method to constrain the actual state of the interstellar cloud that surrounds the solar system. Using Voyager UVS Lyman-α sky maps and the powerful principle of invariance, we derive the H distribution all along the spacecraft path. Provided current models of the heliopause interface between the solar and the interstellar winds, we extrapolate this distribution to farther distances from the Sun and infer in a self consistent way key parameters of the local cloud. Our findings are a high interstellar hydrogen density of ~ 0.24 cm−3 and a weak ionization .

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Kinematical Structure of the Local Interstellar Medium: The Galactic Center Hemisphere

The Astrophysical Journal ◽

10.1086/304348 ◽

1997 ◽

Vol 484 (2) ◽

pp. 761-778 ◽

Cited By ~ 20

Author(s):

Ricardo Genova ◽

John E. Beckman ◽

Stuart Bowyer ◽

Thomas Spicer

Keyword(s):

Interstellar Medium ◽

Galactic Center ◽

Local Interstellar Medium

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Abundances in the Gaseous Galactic Halo

Highlights of Astronomy ◽

10.1017/s1539299600020049 ◽

1998 ◽

Vol 11 (1) ◽

pp. 86-89

Author(s):

Ulysses J. Sofia

Keyword(s):

Interstellar Medium ◽

Gas Phase ◽

High Velocity ◽

Galactic Halo ◽

Solar Neighborhood ◽

Local Interstellar Medium ◽

The Galaxy ◽

Metal Abundances ◽

High Velocity Clouds

Abstract The well measured gas-phase abundances in the low halo suggest that this region of the Galaxy has total (gas plus dust) metal abundances which are close to those in the solar neighborhood. The gas-phase abundances in the halo are generally higher than those seen in the disk, however, this affect is likely due to the destruction of dust in the halo clouds. Observations of high velocity clouds (HVCs) in the halo suggest that these clouds have metal abundances which are substantially lower than those measured for the local interstellar medium. These determinations, however, are often of lower quality than those for the low halo because of uncertainties in the hydrogen abundances along the sightlines, in the incorporation of elements into dust, and in the partial ionization of the clouds.

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