Evolution of the Information in the Universe
Abstract
Information in the universe evolves according to a nonlinear law, which results from a combination of nonlinear dynamics and quantum theory. The KolmogoroffSinai entropy rate of the Universe evolves in inverse proportion to the temperature. Since the evolution of temperature is known from standard cosmology, the time dependence of the universal entropy rate can be determined and the temporal evolution of the universal information content can be calculated. Information starts growing at the enormous rate of 10^{44} bits per second from an initial value of at least 2π (seven) bits at Planck time. However, it reaches its contemporary value only if one or more inflationary phases have been passed by the Universe in the course of its evolution.
 Publication:

Astrophysics and Space Science
 Pub Date:
 March 1993
 DOI:
 10.1007/BF00626983
 Bibcode:
 1993Ap&SS.201..135T
 Keywords:

 Computational Astrophysics;
 Entropy;
 Gravitational Constant;
 Universal Time;
 Universe;
 Nonlinear Equations;
 Quantum Theory;
 Temperature Measurement;
 Astrophysics