On Semi-classical Degravitation and the Cosmological Constant Problems

TL;DR

This paper explores a semi-classical mechanism involving non-local modifications to Einstein's equations to address the cosmological constant problem by effectively degravitation of long-wavelength sources.

Contribution

It proposes a class of non-local effective actions that can produce a filter function for Newton's constant, offering a semi-classical approach to degravitation.

Findings

Non-local modifications can suppress long-wavelength sources.

A class of effective actions yields a degravitation filter function.

Discussion of scheme dependence and connections to existing literature.

Abstract

In this report, we discuss a candidate mechanism through which one might address the various cosmological constant problems. We first observe that the renormalization of gravitational couplings (induced by integrating out various matter fields) manifests non-local modifications to Einstein's equations as quantum corrected equations of motion. That is, at the loop level, matter sources curvature through a gravitational coupling that is a non-local function of the covariant d'Alembertian. If the functional form of the resulting Newton's `constant' is such that it annihilates very long wavelength sources, but reduces to $1/M^2_{pl}$ ($M_{pl}$ being the 4d Planck mass) for all sources with cosmologically observable wavelengths, we would have a complimentary realization of the degravitation paradigm-- a realization through which its non-linear completion and the corresponding modified Bianchi identities are readily understood. We proceed to consider various theories whose coupling to gravity may a priori induce non-trivial renormalizations of Newton's constant in the IR, and arrive at a class of non-local effective actions which yield a suitably degravitating filter function for Newton's constant upon subsequently being integrated out. We motivate this class of non-local theories through several considerations, discuss open issues, future directions, the inevitable question of scheme dependence in semi-classical gravitational calculations and comment on connections with other meditations in the literature on relaxing of the cosmological constant semi-classically.