Two approaches that prove divergence free nature of non-local gravity
M. Hameeda, B. Pourhassan, M. C. Rocca, Aram Bahroz Brzo
Abstract
Abstract This paper is an attempt to study the thermodynamics of the structure formation in the large scale universe in the non local gravity using Boltzmann statistics and the Tsallis statistics. The partition function is obtained in both the approaches and the corresponding thermodynamics properties are evaluated. The important thing about the paper is that we surprisingly get the divergence free integrals and thus stress upon the fact that the nonlocal gravity is the singularity free model of gravity.
Topics & Concepts
Partition function (quantum field theory)SingularityDivergence (linguistics)PhysicsStatistical physicsBoltzmann constantEntropy (arrow of time)MathematicsFunction (biology)Gravitational singularityStatistical mechanicsClassical mechanicsScale (ratio)Measure (data warehouse)UniverseTsallis entropyTheoretical physicsGravitationNon-equilibrium thermodynamicsMathematical physicsArrow of timeScalingTsallis statisticsCosmologyEntropic gravityStatistical Mechanics and EntropyGas Dynamics and Kinetic TheoryDust and Plasma Wave Phenomena