# Distribution Function of the Atoms of Spacetime and the Nature of Gravity

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IUCAA, Pune University Campus, Ganeshkhind, Pune 411007, India

Academic Editor: Raúl Alcaraz Martínez

Abstract The fact that the equations of motion for matter remain invariant when a constant is added to the Lagrangian suggests postulating that the field equations of gravity should also respect this symmetry. This principle implies that: 1 the metric cannot be varied in any extremum principle to obtain the field equations; and 2 the stress-tensor of matter should appear in the variational principle through the combination Tabnanb where na is an auxiliary null vector field, which could be varied to get the field equations. This procedure uniquely selects the Lanczos–Lovelock models of gravity in D-dimensions and Einstein’s theory in D = 4. Identifying na with the normals to the null surfaces in the spacetime in the macroscopic limit leads to a thermodynamic interpretation for gravity. Several geometrical variables and the equation describing the spacetime evolution acquire a thermodynamic interpretation. Extending these ideas one level deeper, we can obtain this variational principle from a distribution function for the -atoms of spacetime-, which counts the number of microscopic degrees of freedom of the geometry. This is based on the curious fact that the renormalized spacetime endows each event with zero volume, but finite area! View Full-Text

Keywords: spacetime entropy; emergent gravity; cosmological constant; horizon entropy; quantum gravity; zero-point length; horizon thermodynamics spacetime entropy; emergent gravity; cosmological constant; horizon entropy; quantum gravity; zero-point length; horizon thermodynamics

Author: **Thanu Padmanabhan **

Source: http://mdpi.com/