The effect of spirality on the evolution of turbulence in the solar protoplanetary cloud

Details The effect of spirality on the evolution of turbulence in the solar protoplanetary cloud The effect of spirality on the evolution of turbulence in the solar protoplanetary cloud

Feb 2007

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2007sosyr..41....1k&link_type=abstract

Solar System Research, Volume 41, Issue 1, pp.1-18

Mathematics

Logic

1

95.30.Lz

Scientific paper

We analyze the possible effect of hydrodynamic spirality that develops in a rotating disk on the synergetic structurization of cosmic matter and on the development of negative turbulent viscosity in cosmic matter within the framework of the problem of the reconstruction of the evolution of the protoplanetary cloud that surrounded the early Sun. We show that comparatively slow damping of turbulence in the disk can be partially due to the lack of reflective symmetry of the anisotropic field of turbulent velocities about its equatorial plane. We formulate the general concept of the development of energy-intensive coherent mesoscale vortex structures in the thermodynamically open system of turbulent chaos associated with the realization of inverse cascade of kinetic energy in mirror-nonsymmetrical disk turbulence. Because of energy release, the inverse cascade produces a hierarchical system of mass concentrations with a fractal density distribution, which ultimately initiate the mechanisms of triggered cluster formation. We use the methods of nonequilibrium thermodynamics to prove the possibility of the development of negative viscosity in the three-dimensional case in terms of the two-scale hydrodynamic description of maximally developed disk turbulence. Negative viscosity in a rotating disk system appears to be a manifestation of cascade processes in spiral turbulence where inverse energy transfer from small to larger vortices occurs. Within the framework of asymmetric mechanics of turbulized continua, we physically substantiated the phenomenological formula for the turbulent stress tensor of Wasiutynski, which is widely used in the astrophysical literature to explain the differential rotation of various cosmic objects by “anisotropic viscosity.” The aim of our study is, first and foremost, to improve a number of representative hydrodynamic models of cosmic natural turbulized media, including the birth of galaxies and galaxy clusters, birth of stars from the diffuse medium of gas and dust clouds, formation of accretion disks and subsequent accumulation of planetary systems, and also the formation of gaseous envelopes of planets, atmospheres, etc. This paper continues the application of stochastic and thermodynamic approach to the synergetic description of the structured turbulence of astrogeophysical systems, which we have been developing in a series of our papers (Kolesnichenko, 2004, 2005; Kolesnichenko and Marov, 2006; Marov and Kolesnichenko, 2002, 2006).

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