Fractal Dimensions and Scaling Laws in the Interstellar Medium and Galaxy Distributions: a new Field Theory Approach

Abstract

We develop a field theoretical approach to the cold interstellar medium (ISM) and large structure of the universe. We show that a non-relativistic self- gravitating gas in thermal equilibrium with variable number of atoms or fragments is exactly equivalent to a field theory of a scalar field phi(x) with exponential self-interaction. We analyze this field theory perturbatively and non-perturbatively through the renormalization group(RG).We show scaling behaviour (critical) for a continuous range of the physical parameters as the temperature. We derive in this framework the scaling relation M(R) RdH for the mass on a region of size R, and Delta v R12(dH -1) for the velocity dispersion. For the density-density correlations we find a power-law behaviour for large distances |r1 - r2|2D - 6.The fractal dimension D turns to be related with the critical exponent by D = 1/ . Mean field theory yields = 1/2, D = 2. Both the Ising and the mean field values are compatible with the present ISM observational data:1.4≤ D ≤ 2. We develop a field theoretical approach to the galaxy distribution considering a gas of self-gravitating masses on the FRW background, in quasi-thermal equi- librium. We show that it exhibits scaling behaviour by RG methods. The galaxy correlations are computed without assuming homogeneity. We find <( r0)( r0 + r) > rD-3 . The theory allows to compute the three and higher density correlators without any assumption.We find that the connected N-points density scales as r1N(D-3), when r1 >> ri, 2≤ i ≤ N $. There are no free parameters in this theory.

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