Action Principle for Newtonian Gravity

Dennis Hansen; Jelle Hartong; Niels A. Obers

Action Principle for Newtonian Gravity

Dennis Hansen, Jelle Hartong, Niels A. Obers

TL;DR

An action is derived whose equations of motion contain the Poisson equation of Newtonian gravity, allowing for the effect of gravitational time dilation due to strong gravitational fields.

Abstract

We derive an action whose equations of motion contain the Poisson equation of Newtonian gravity. The construction requires a new notion of Newton--Cartan geometry based on an underlying symmetry algebra that differs from the usual Bargmann algebra. This geometry naturally arises in a covariant $1/c$ expansion of general relativity with $c$ the speed of light. By truncating this expansion at subleading order we obtain the field content and transformation rules of the fields that appear in the action of Newtonian gravity. The equations of motion generalize Newtonian gravity by allowing for the effect of gravitational time dilation due to strong gravitational fields.

Action Principle for Newtonian Gravity

TL;DR

An action is derived whose equations of motion contain the Poisson equation of Newtonian gravity, allowing for the effect of gravitational time dilation due to strong gravitational fields.

Abstract

expansion of general relativity with

the speed of light. By truncating this expansion at subleading order we obtain the field content and transformation rules of the fields that appear in the action of Newtonian gravity. The equations of motion generalize Newtonian gravity by allowing for the effect of gravitational time dilation due to strong gravitational fields.

Action Principle for Newtonian Gravity

TL;DR

Abstract

Action Principle for Newtonian Gravity

TL;DR

Abstract

Paper Structure