Scaling Relations for self-Similar Structures and the Cosmological   Constant

C Sivaram (Indian Institute of Astrophysics; Bangalore; India)

arXiv:0801.1218·astro-ph·January 9, 2008·5 cites

Scaling Relations for self-Similar Structures and the Cosmological Constant

C Sivaram (Indian Institute of Astrophysics, Bangalore, India)

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TL;DR

This paper explores universal scaling relations for self-similar cosmic structures and links them to the cosmological constant, enhancing understanding of large-scale universe properties.

Contribution

It establishes a connection between scaling relations of cosmic structures and the cosmological constant, providing a unified framework for their analysis.

Findings

01

Universal scaling relations observed across diverse cosmic structures

02

Connection established between structure properties and cosmological constant

03

Implications for understanding universe's large-scale dynamics

Abstract

Scaling relations for the mass, angular momentum and other properties of a wide range of self-similar structures in the universe are seen to have universal features. As a consequence of the ideas elaborated in earlier papers these relations can be connected to a background constant curvature given by the cosmological constant dominating cosmical dynamics.

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Taxonomy

TopicsCosmology and Gravitation Theories · Advanced Mathematical Theories and Applications · Relativity and Gravitational Theory