The microscopic state of the solar wind: Links between composition, velocity distributions, waves and turbulence

Details The microscopic state of the solar wind: Links between composition, velocity distributions, waves and turbulence The microscopic state of the solar wind: Links between composition, velocity distributions, waves and turbulence

Jun 1995

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1995sowi.conf...35m&link_type=abstract

Max-Planck-Inst. für Aeronomie, International Solar Wind 8 Conference, p. 35

Physics

1

Solar Wind, Wave-Particle Interactions, Velocity Distribution, Magnetohydrodynamic Turbulence, Magnetohydrodynamic Waves, Solar Corona, Solar Activity Effects, Nonthermal Radiation, Solar Magnetic Field, Kinetic Energy, Concentration (Composition), Solar Physics, Ulysses Mission, Local Thermodynamic Equilibrium, Distribution Functions, Anisotropy, Compressibility, Astronomical Models, Turbulent Flow, Coulomb Collisions, Unsteady Flow

Scientific paper

An overview is given of the microscopic state of the solar wind with emphasis on recent Ulysses high-latitude observations and previous Helios in-ecliptic observations. The possible links between composition, ionization state. velocity distribution functions of electrons, protons and heavy ions. kinetic plasma waves and MHD-scale turbulence are elaborated. Emphasis is placed on a connection of interplanetary kinetic-scale phenomena with their generating microscopic processes in the corona. The fast streams seem to consist of mesoscale pressure-balanced plasma filaments and magnetic flux tubes, reminiscent of the supergranular-size structures building the open corona, from which copious Alfven waves emanate. The wind from the magnetically structured and active corona shows developed compressive turbulence and considerable abundance and ionization state variations. Some modelling attempts to explain the observed element fractionation are briefly reviewed. The causes of the nonthermal particle features. such as proton-ion differential streaming, ion beams. temperature anisotropies, and skewed distributions associated with collisionless heat conduction, are ultimately to be searched in the fact, that the corona is never quiescent but fundamentally variable in space and time. Consequently, the radial evolution of the internal state of the wind resembles at all latitudes a complicated relaxation process, in the course of which the free (in comparison with LTE conditions) particle kinetic energy is converted into plasma waves and MHD turbulence on a wide range of scales. This leads to intermittent wave-particle interactions and unsteady anomalous transport, mixed with the weak effects of the rare Coulomb collisions. Spherical expansion and large-scale inhomogeneity forces the wind to attain microscopically a complex internal state of dynamic statistical equilibrium.

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