Litcius/Paper detail

Entropy and the link action in the causal set path-sum

Abhishek Mathur, Anup Anand Singh, Sumati Surya

2020Classical and Quantum Gravity13 citationsDOIOpen Access PDF

Abstract

Abstract In causal set theory the gravitational path integral is replaced by a path-sum over a sample space Ω n of n -element causal sets. The contribution from non-manifold-like orders dominates Ω n for large n and therefore must be tamed by a suitable action in the low energy limit of the theory. We extend the work of Loomis and Carlip on the contribution of sub-dominant bilayer orders to the causal set path-sum and show that the ‘link action’ suppresses the dominant Kleitman–Rothschild orders for the same range of parameters.

Topics & Concepts

PhysicsCausal setsEntropy (arrow of time)Limit (mathematics)Path integral formulationAction (physics)Set (abstract data type)Path (computing)Statistical physicsTheoretical physicsGravitationSpace (punctuation)Work (physics)Classical mechanicsCausal structureRange (aeronautics)Kullback–Leibler divergenceSpacetimeLink (geometry)Effective actionCausality (physics)Statistical Mechanics and EntropyNoncommutative and Quantum Gravity TheoriesQuantum Mechanics and Applications